RU2667799C1 - Transporter-launcher container - Google Patents

Abstract

FIELD: transportation; storage.SUBSTANCE: invention relates to transport-launch containers, interconnected for carrying and sequential or multiple launch of rocket grenades for various purposes. Transport-launch container includes a tubular body with a front and a rear end; front and rear annular nozzles located respectively at the front and rear ends of the tubular body; means for releasably connecting with at least one similar transport launch canister by moving relative to such a transport launch canister in a tangential direction; means for fixing and uncoupling the connected position of the transport-launch containers.EFFECT: ensuring the simplicity and ease of use, especially in the field, improving the reliability of the connection with other similar transport-launch containers.10 cl, 14 dwg

Description

The invention relates to portable transport and launch containers, interconnected for carrying and sequential or multiple launch rocket grenades for various purposes.

Known transport and launch container (US 9518802 B2, F41F 3/04, F41F 1/08, publ. 12/13/2016), including a tubular housing with front and rear ends. To connect the specified transport and launch container with other similar transport and launch containers, either a weapon body is used inside which the transport and launch containers are connected, or nozzles covering a selected number of transport and launch containers at the front and rear ends of their tubular bodies, nozzles is determined by the selected number of transport launch containers. Therefore, the connection of the known transport and launch containers together in a single design can be carried out either in the factory or for connection requires a different shape of the nozzle, which complicates the use of the known transport and launch container in the field.

The transport and launch container of the present invention provides simplicity and ease of use, especially in the field, and the reliability of the connection with other similar transport and launch containers when they are carried together and sequentially or in salvo firing rocket-propelled grenades for various purposes.

The transport and launch container of the present invention includes a tubular body with front and rear ends; front and rear annular nozzles located respectively on the front and rear ends of the tubular body; means for detachable connection with at least one such transport and launch container by moving relative to such a transport and launch container in a tangential direction; means for fixing and unlocking the connected position with at least one such transport and launch container.

The detachable connection means can be a pair of connecting elements made on the outer side surface of the front annular nozzle, one of which is made in the form of a tangential protrusion having a lead end, and the other is made in the form of an external and internal end wall, between which a tangential groove is formed, and made on the outer side surface of the rear annular nozzle a pair of connecting elements, one of which is made in the form of a tangential protrusion having a lead end, and others the goy is made in the form of an outer and inner end wall, between which a tangential groove is formed, while the other end of the tangential protrusion in each of the pairs of connecting elements is made with a stop for the outer and inner end walls of the connecting element of the corresponding pair of connecting elements of the attached transport-launch container, and a pair of connecting elements of the front annular nozzle is located coaxially with a pair of connecting elements of the rear annular nozzle. This embodiment of the connecting means allows to increase the reliability of the connection of the transport and launch containers during firing and to prevent the rolling of the transport and launch container during a fall.

To provide various embodiments of the electrical circuit of the transport and launch container, the connecting elements of each of these pairs of front and rear ring nozzles are diametrically opposed or at right angles to each other.

To form a compact package of several transport and launch containers, which is convenient for transportation, carrying and shooting, the detachable connection means can be made with an additional pair of connecting elements located on the outer side surface of the front annular nozzle, one of which is made in the form of a tangential protrusion having the lead-in end and the other is made in the form of the outer and inner end walls, between which a tangential groove is formed, and with located on the outer side the surface of the rear annular nozzle with an additional pair of connecting elements, one of which is made in the form of a tangential protrusion having a lead-in end, and the other is made in the form of an outer and inner end walls, between which a tangential groove is formed, while the other end of the tangential protrusion in each of the additional a pair of connecting elements is made with emphasis for the outer and inner walls of the connecting element of the corresponding additional pair of connecting elements to be attached of the approved transport and launch container, an additional pair of connecting elements of the front annular nozzle is located coaxially with an additional pair of connecting elements of the rear annular nozzle, and both pairs of connecting elements of the front and rear annular nozzles are mutually perpendicular so that the connecting elements with tangential protrusions on each annular nozzle are adjacent moreover, their tangential protrusions are oriented by the lead ends in the same direction.

The dimensions of the connecting elements of both pairs on each of these annular nozzles are chosen so that between the front annular nozzles and between the rear annular nozzles of the transport-launch containers in the connected position, sufficient gaps are formed to connect such a transport-launch container.

The tangential protrusions in the connecting elements can be made with a T-shaped cross section, and tangential grooves with a corresponding cross section, which helps to increase the reliability of the connection of transport-launch containers.

The means for fixing and unlocking the connected position with at least one such transport and launch container may be a spring-loaded pin with a shoulder located in a blind stepped hole made in each tangential protrusion, a sleeve fixed in the specified blind hole and forming a stop for the specified shoulder, and a button with a stepped shank, located with the possibility of reciprocating movement in a through step hole made in the inner end the wall of each connecting element with a tangential groove, and in the specified through hole is fixed sleeve, forming an emphasis for the stepped shank in the connected position of the transport-launch containers.

In addition, the means for fixing and unlocking the connected position with at least one such transport and launch container may be a spring-loaded pin with a shoulder located in a blind stepped hole made in each tangential protrusion with the formation of an abutment for the specified shoulder, and a button with a stepped shank located with the possibility of reciprocating movement in a through step hole made in the inner end wall of each connecting element entent with a tangential groove, and in this through-hole there is an emphasis for the stepped shank in the connected position of the transport-launch containers, and the front and rear annular nozzles are made of two parts rigidly connected to each other along the equatorial plane intersecting the blind stepped hole in its section, having a diameter corresponding to the diameter of the shoulder of the spring pin.

A layer of elastic material can be located between the front annular nozzle and the tubular body and between the rear annular nozzle and the tubular housing to ensure the mobility of the front and rear annular nozzles when connecting transport-launch containers, taking into account the tolerances of their manufacture and reduce impact loads in the event of a drop in the transport-launch container.

The tubular housing under the front and rear annular nozzles may have radial holes filled with the specified elastic material, which increases the reliability of mounting of these annular nozzles on the tubular housing.

The invention is illustrated in the drawings.

In FIG. 1 shows a general view of a launch container in one embodiment of the invention;

in FIG. 2 shows a general view of a launch container in another embodiment of the invention;

in FIG. 3 shows a general view of a launch container in another embodiment of the invention;

in FIG. 4 shows a partial general view of two transport launch containers before they are connected to each other;

in FIG. 5-7 are a partial sectional view of the launch containers shown in FIG. 4, in the process of connecting them to each other;

in FIG. 8 is a front view of a launch container in another embodiment of the invention;

in FIG. 9-11 are a partial sectional view of transport launch containers according to the embodiment of the invention shown in FIG. 8, in the process of connecting them to each other;

in FIG. 12 shows a left side view of an assembly of three transport and launch containers;

in FIG. 13 shows a left side view of an assembly of twelve transport launch containers;

in FIG. 14 shows a section AA of the launch container shown in FIG. 8.

As shown in FIG. 1 and 2, the transport and launch container comprises a tubular body 1, at the front end of which there is a front annular nozzle 2, and at the rear end a rear annular nozzle 3. The tubular housing 1 is made of composite material, for example fiberglass or carbon fiber, and is hermetically closed by the front cover 4 and the same back cover (not shown). The front annular nozzle 2 and the rear annular nozzle 3 are made of glass-filled polyamide by injection molding in whole or in part with subsequent mechanical refinement. On the outer side surface 5 of the front annular nozzle 2, a pair of connecting elements 6 and 7 is made, while the connecting element 6 is made in the form of a tangential protrusion 8 having a lead end 9, and the connecting element 7 is made in the form of an outer end wall 10 and an inner end wall 11 between which a tangential groove 12 is formed. At the other end of the tangential protrusion 8, an abutment 13 is made for the outer and inner end walls of an attachable similar transport and launch container similar to the outer the front wall 10 and the inner end wall 11. On the outer side surface 14 of the rear annular nozzle 3, a pair of connecting elements 15 and 16 are made, while the connecting element 15 is made in the form of a tangential protrusion 17 having an input end 18, and the connecting element 16 is made in the form an outer end wall 19 and an inner end wall 20, between which a tangential groove 21 is formed. At the other end of the tangential protrusion 17, an abutment 22 is made for the outer and inner end walls of a similar trans the launching container, similar to the outer end wall 19 and the inner end wall 20. The tangential protrusions 8 and 17 have a T-shaped cross section, which corresponds to the cross section of the tangential grooves 12 and 21. In the General case, the cross section of the protrusions 8 and 17 can have any acceptable shape, for example, rectangular or dovetail. However, a T-shaped section is preferable, since it provides increased reliability of the connection of transport and launch containers due to the tangential grooves and tangential protrusions adhesion over a larger surface and the possibility of placing functional elements for various purposes, including fixation elements inside the T-shaped protrusion (see below) and / or elements of electrical circuits (not shown).

A pair of connecting elements 6 and 7 is made coaxially to a pair of connecting elements 15 and 16, that is, the connecting element 6 located on the front annular nozzle 2 is on the same axis as the connecting element 15 located on the rear annular nozzle 3, and the connecting element 7 located on the front annular nozzle 2, is on the same axis with the connecting element 16 located on the rear annular nozzle 3. This coaxial position of these connecting elements provides the connection of the transport-launch containers before shooting, or for transporting or carrying.

Depending on different embodiments of the electrical circuit of the launch vehicle, the connecting elements 6 and 7 of the front annular nozzle 2 can be diametrically opposed to each other (Fig. 1) or at right angles (Fig. 2). The same applies to the connecting elements 15 and 16 of the rear annular nozzle 3.

For transportation, carrying and firing of small-caliber uncontrolled rocket-propelled grenades, for example, 60 mm caliber, an increase in the number of transport-launch containers to be connected with the provision of a compact assembly of two or more rows may be required. Therefore, as shown in FIG. 3, 4, 8 and 12-14, in comparison with the launch vehicles shown in FIG. 1 or FIG. 2, on the outer lateral surface 5 of the front annular nozzle 2, an additional pair of connecting elements 23 and 24 located perpendicularly to the pair of connecting elements 6 and 7 is formed, and on the outer lateral surface 14 of the rear annular nozzle 3, an additional pair of connecting elements 25 and 26 is arranged perpendicularly a pair of connecting elements 45-15 and 16.

The connecting elements 23 and 24 are made similar to the connecting elements 6 and 7, that is, the connecting element 23 is made in the form of a tangential protrusion 27 having a T-shaped cross section and an inlet end 28, and the connecting element 24 is made in the form of an outer end wall 29 and an inner end walls 30 between which a tangential groove 31 is formed, the cross section of which also has a T-shape. At the other end of the tangential protrusion 27, an emphasis 32 is made for the outer and inner end walls of an attachable similar launch vehicle similar to the outer end wall 29 and the inner end wall 30.

The connecting elements 25 and 26 are made similar to the connecting elements 15 and 16, that is, the connecting element 25 is made in the form of a tangential protrusion 33 having a T-shaped cross section and an inlet end 34, and the connecting element 26 is made in the form of an outer end wall 35 and an inner end walls 36, between which a tangential groove 37 is formed, also having a T-shaped cross section. At the other end of the tangential protrusion 33, an emphasis 38 is made for the outer and inner end walls of an attachable similar launch vehicle similar to the outer end wall 35 and the inner end wall 36.

The connecting elements of both additional pairs are coaxial like connecting elements 6 and 15, 7 and 16.

In addition, the connecting elements 6 and 23 of the front annular nozzle 2 are adjacent, while their tangential protrusions 8 and 27 are oriented by their lead ends 9 and 28 in the same direction. Correspondingly, on the rear annular nozzle 3, connecting elements 15 and 25 are adjacent, and their tangential protrusions 17 and 33 are oriented by their inlet ends 18 and 34 in the same direction.

In FIG. 5-7 show an embodiment of a means for fixing the connected position of transport launch containers and its unlocking by the example of fixing the connection of the connecting element

23 single transport launch container and connecting element

24 other similar launch container. The same means of fixing and unlocking is used for the remaining connecting elements of the transport and launch container. The specified tool is a spring-loaded pin 39 with a collar 40 located in a blind stepped hole 41 made in a tangential protrusion 27, a sleeve 42, which is fixed in a blind stepped hole 41 and forms a stop for the shoulder 40, a button 43 with a stepped shank 44, located in a through step hole 45 in the inner end wall 30, and fastened, for example, by a threaded connection, to a sleeve 46 in the through step hole 45 forming a stop for the step shaft 44 in laying transport and launch containers.

In FIG. 8-11, another embodiment of the transport and launch container of the present invention is shown, in which another embodiment of the means for fixing and unlocking the connected position of the transport and launch containers with respect to all connecting elements is used. In this case, this means is a spring-loaded pin 39 with a shoulder 40 located in a blind stepped hole 47 made in a tangential protrusion 27 with the formation of an abutment 48 for the shoulder 40, and a button 43 with a stepped shank 44 located in the through step hole 49 in the inner the end wall 30, in which an emphasis 50 is formed for the stepped shank 44 in the connected position of the transport-launch containers.

In order to ensure the installation of the above-described means, the front annular nozzle 2 and the rear annular nozzle 3 are made of two parts rigidly interconnected, for example, by gluing or ultrasonic welding along the equatorial plane 51 intersecting the blind stepped hole 47 in its portion having a diameter corresponding to the diameter shoulder 40 of spring spring 39.

As shown in FIG. 12 and 13, in the case of a transport and launch container with two pairs of connecting elements on the front annular nozzle and two pairs of connecting elements on the rear annular nozzle, the dimensions of these connecting elements are selected so that between the front ring nozzles 2 and between the rear ring nozzles 3 of the transport launch containers in the connected position, spaces 52 are formed sufficient to attach such a transport and launch container. The indicated dimensions of the connecting elements in combination with the implementation of the connecting elements with tangential protrusions adjacent and the same orientation of the lead-in ends of the tangential protrusions allows you to get the assembly of transport-launch containers for any given number of rows.

As shown in FIG. 14, between the front annular nozzle 2 and the tubular body 1, as well as between the rear annular nozzle 3 and the tubular body 1, there is a layer 53 of elastic material, for example polyurethane, providing mobility of both nozzles 2 and 3 when connecting transport-launch containers taking into account the tolerances of their manufacture and reduction of shock loads on the transport and launch container in case of its fall.

Radial holes 54 are made under the front annular nozzle 2 and the rear annular nozzle 3 in the tubular body 1. When pouring an elastic material between the said annular nozzles 2 and 3 and the tubular body 1, the radial holes 54 are also filled with this material, which creates a kind of pins that further contribute to the retention of these annular nozzles 2 and 3 on the tubular body 1, which helps to increase the reliability of fastening of both nozzles.

As shown in FIG. 4, in order to connect the two transport launch containers for transporting, carrying or before firing, the tangential protrusion 27 with the inlet end 28 of the front ring nozzle 2 and the tangential protrusion 33 with the inlet end 34 of the rear ring nozzle 3 of one transport launch container are simultaneously introduced into the tangential the groove 31 of the front nozzle 2 before touching the stop 32 and the tangential groove 37 of the rear annular nozzle 3 before touching the stop 22 of another similar transport and launch container. When combining the through step holes 45 or 49 in the inner end walls 30 and 36 with spring pins 39 in the blind step holes 41 or 47 made in the tangential projections 27 and 33, the buttons 43 with the stepped shanks 44 located in these through holes move out under the action of the spring-loaded pins 39. In this case, the movement of the spring-loaded pins 39 is limited either when the shoulder 40 rests on the bushings 42, or when the shoulder 40 contacts the stops 48, and the movement of the buttons 43 is limited either when pore stepped shanks 44 in the sleeve 46, or when the stepped shanks 44 come in contact with the stops 50. This prevents accidental unlocking of the connected transport-launch containers.

To connect two or more rows of transport-launch containers, first, in the manner described above, transport-launch containers are connected in separate rows. Then, one of the rows of transport-launch containers is inserted with the corresponding connecting elements into the spaces 52 formed between the connecting elements of the previous row and the first of the said rows is moved tangentially until the corresponding connecting elements of both rows are closed.

Disconnecting the transport and launch containers is carried out by pressing the buttons 43 on the front and rear ring nozzles 2 and 3, respectively. In this case, the stepped shank 44 of each button 43 pushes the spring-loaded pin 39 from the corresponding stepped hole 45 or 49, and the connecting elements of one transport and launch container are disengaged from the connecting elements of another similar transport and launch container.

Claims (14)

1. Transport and launch container, including: - a tubular body with front and rear ends; - front and rear ring nozzles located respectively at the front and rear ends of the tubular body; - means for detachable connection with at least one similar transport and launch container by moving relative to such a transport and launch container in a tangential direction; - means for fixing and unlocking the connected position with at least one such transport and launch container. 2. The transport and launch container according to claim 1, wherein the detachable connection means is a pair of connecting elements made on the outer side surface of the front annular nozzle, one of which is made in the form of a tangential protrusion having a lead-in end, and the other is made in the form of an outer and inner end walls, between which a tangential groove is formed, and a pair of connecting elements made on the outer side surface of the rear annular nozzle, one of which is made in the form of a tangential a protrusion having a lead-in end, and the other is made in the form of an outer and inner end walls, between which a tangential groove is formed, while the other end of the tangential protrusion in each of the pairs of connecting elements is made with a stop for the outer and inner end walls of the connecting element of the corresponding pair of connecting elements of a similar transport and launch container to be attached, and a pair of connecting elements of the front annular nozzle is located coaxially to a pair of connecting elements back ring nozzle. 3. Transport and launch container according to claim 2, in which the connecting elements of each of these pairs of front and rear annular nozzles are diametrically opposed or at right angles to each other. 4. The transport and launch container according to claim 2, wherein the detachable connection means is arranged with an additional pair of connecting elements located on the outer side surface of the front annular nozzle, one of which is made in the form of a tangential protrusion having a lead-in end, and the other is made in the form of an outer and the inner end walls, between which a tangential groove is formed, and with an additional pair of connecting elements located on the outer side surface of the rear annular nozzle, one of which The second one is made in the form of a tangential protrusion having a lead-in end, and the other is made in the form of an outer and inner end walls, between which a tangential groove is formed, while the other end of the tangential protrusion in each of the additional pairs of connecting elements is made with a stop for the outer and inner walls of the connecting an element of a corresponding additional pair of connecting elements of a similar transport and launch container to be attached, an additional pair of connecting elements of the front the annular nozzle is located coaxially with an additional pair of connecting elements of the rear annular nozzle, and both pairs of connecting elements of the front and rear annular nozzles are mutually perpendicular so that the connecting elements with tangential protrusions on each annular nozzle are adjacent, and their tangential protrusions are oriented by the input ends in the same direction . 5. The transport and launch container according to claim 4, in which the dimensions of the connecting elements of both pairs on each of these ring nozzles are selected so that between the front ring nozzles and between the rear ring nozzles of the transport and launch containers in the connected position, spaces are sufficient for connection a similar launch container. 6. Transport and launch container according to any one of paragraphs. 2-5, in which the tangential protrusions are made with a T-shaped cross section, while the tangential grooves are made with the corresponding cross section. 7. Transport and launch container according to any one of paragraphs. 2-6, in which the means for fixing and unlocking the connected position with at least one such transport and launch container is a spring-loaded pin with a shoulder located in a blind stepped hole made in each tangential protrusion, a sleeve fixed in the specified blind hole and forming an emphasis for the specified flange, and a button with a stepped shank located with the possibility of reciprocating movement in a through step hole made in the inner tsevoy wall of each connecting element with a tangential groove in said sleeve through hole is fixed, forming a stop for the stepped shank in the connected position of transport and launch container. 8. Transport and launch container according to any one of paragraphs. 2-6, in which the means for fixing and unlocking the connected position with at least one such transport and launch container is a spring-loaded pin with a shoulder located in a blind stepped hole made in each tangential protrusion with the formation of an abutment for the specified shoulder, and a button with stepped shank, located with the possibility of reciprocating movement in a through stepped hole made in the inner end wall of each connecting element with a tangential groove, and in this through hole, an emphasis is formed for the stepped shank in the connected position of the transport and launch containers, and the front and rear annular nozzles are made of each of two parts rigidly connected to each other along the equatorial plane intersecting the blind stepped hole in its section, having a diameter corresponding to the diameter of the shoulder of the spring pin. 9. The transport and launch container according to claim 1, wherein a layer of elastic material is located between the front annular nozzle and the tubular body and between the rear annular nozzle and the tubular body. 10. The transport and launch container according to claim 9, in which the tubular body under the front and rear annular nozzles has radial openings filled with the specified elastic material.

Images