RU161684U1 - CONTAINER FOR STORAGE AND TRANSPORT OF SHOOT WEAPONS - Google Patents

Abstract

1. A container for storing and transporting small arms, comprising two housings fixed to each other, and means for fixing the container relative to adjacent containers when stacking, characterized in that the casings are identical and connected to each other by centering bosses that enter into the centering holes on protrusions of the side of the housings, and the system of locking fasteners, and the means of fixing the container relative to the containers adjacent to it during stacking are made in the form of stiffeners and etstvuyuschih their slots on the outer surface of the housing, the axis of symmetry of the ribs and corresponding grooves are offset from the transverse axis of symmetry of the housing and equidistant from nee.2. A container for storing and transporting small arms according to claim 1, characterized in that when stacking, the combination of stiffeners and their corresponding grooves on the outer surface of the bodies is ensured by 180 ° rotation of one container relative to another. 3. A container for storing and transporting small arms according to claim 1, characterized in that the casing is made of polymer material. 4. A container for storing and transporting small arms according to claim 1, characterized in that the stiffeners and the corresponding grooves are made in a rectangular shape.

Description

The utility model relates to a container for storing small arms and suitable for stacking and transportation.

A multi-section device for mounting and securing products is known (RF patent for invention No. 2073993, priority date 11/19/1993, publ. 02/27/1997, IPC А47В 81/00, F41C 33/06) containing a base cone fixed to a shelf and on the rack, a spring profile bracket with protrusions, a base cone is placed in the support socket under the handle of the machine, and the bracket is made of thermoplastic material, mainly polyethylene, in the form of two flat springs, profiled under the barrel of the machine, and the height of the protrusions of the bracket is 0,033-0,056 length staples.

A disadvantage of the known device is the lack of stacking during storage and transportation.

Known multi-turn collapsible metal container (RF patent for the invention No. 2347181, priority date 03/15/2007, publ. 02/20/2009, IPC F42B 39/00, F41C 33/06) containing a bottom with support bars and interconnected quick disconnect lattice walls with rigid transverse ties. The container is equipped with a trellised lid with couplers in which the mounting holes are made, and the bottom is placed in a box-shaped base, on the ends of which two threaded pins are fixed. The side walls are made resting on the bottom, and the end walls are made with through grooves for the mentioned pins and are provided with bearing corners to cover the base from the bottom and the side walls from above. The container is equipped with threaded pins for the mounting holes of the cover ties, and all threaded pins are kinematically closed by means of a power connection with nuts. The protrusions are made on the lid couplers, and the grooves on the support bars are designed to interact with the said protrusions of the other container when stacking.

A disadvantage of the known device is the large weight, the complexity of the design and the inconvenience of stacking.

The well-known "Container for storage and transportation of ammunition" (Patent for the invention of the Russian Federation No. 2365871 from 08/29/2007, publ.: 08/27/2009, IPC F42B 39/26 (adopted as a prototype)).

Known packaging for storage and transportation of ammunition, is a case in the form of a monocoque of a polymer composite material, equipped with elements for stacking and elements for loading and unloading. The case in the form of a monocoque is made of the lower part and the upper part connected to each other, each of which is made with at least two stiffening elements. The stiffening element of the upper part of the monocoque is located above the stiffening element of the lower part of the monocoque, forming a power belt of the housing. The stiffening element of the lower part of the monocoque is a lodgement for placing ammunition, and the stiffening element of the upper part of the monocoque is a transverse frame. A fixing element is attached to the bottom of the monocoque to prevent longitudinal-transverse movement of the ammunition, made in the form of a clamp made of steel strips fastened together.

Stacking elements are located in the zone of power belts and are protrusions made respectively on the lower stiffener elements, and recesses are made on the upper stiffener elements coaxially with the protrusions. The invention is directed to the creation of reusable durable containers for storage and transportation of ammunition.

Stacking of containers is carried out using protrusions made on the bottom of the monocoque in the zone of power belts on the lower stiffeners included in the corresponding recesses made on the top of the monocoque on the upper stiffeners.

Possibility of stacking containers, simplifies their loading and unloading operations.

The disadvantage of this device is the complexity of the design and stacking elements.

The objective of the proposed technical solution is to create a convenient and reliable (durable) container reusable for storage and transportation of small arms.

The technical result of the utility model is a quick and reliable assembly of the stack of containers in storage and / or transportation.

The technical result is achieved in that the container for storing and transporting small arms includes two bodies that are fixed to each other and means for fixing the container relative to containers adjacent to it during stacking, while the bodies are identical and connected to each other by centering bosses that enter into the centering holes on the protrusions of the side of the housings, and the system of locking fasteners, means for fixing the container relative to adjacent containers when stacked, are made in the form ribs and corresponding grooves on the outer surface of hulls and rib stiffness symmetry axis and the corresponding grooves are offset from transverse axis of symmetry of the housing and are equidistant from it.

A utility model is shown in the drawings.

FIG. 1, FIG. 2 - container body;

FIG. 3 - assembled container, consisting of two identical connected cases;

FIG. 4 - location of stiffeners on the outer surface of the container bodies;

FIG. 5 is a view of a stack consisting of two containers.

The container for storing and transporting small arms is two identical hollow bodies 1 made of polymer material, with the possibility of connection with each other using connecting elements and forming a closed container. (Fig. 3)

Hollow bodies (upper and lower) 1, connected to the container, are structurally identical.

The design of the buildings 1 is designed taking into account the possibility of their stacking.

In the cavity of each housing 1 is placed and fixed small arms.

The design of the buildings 1 is made with the possibility of vertical stacking of the assembled containers.

On the housing 1 along the entire outer surface (Figs. 3, 4), transverse stiffeners of rectangular shape are made. The ribs are made in the form of uniformly alternating wide (2) and two narrow (3) parallel ribs of rectangular shape with the formation of grooves 4 between them on the entire surface of the housing. Wide ribs 2 are made on the outer surface of the container with transverse grooves 4a relative to the ribs, and symmetrically between the two parallel ribs 3 there are transverse short ribs 5 relative to two parallel ribs 3.

The shape and dimensions of the grooves 4a correspond to the dimensions of the short ribs 5, making it possible for the ribs 5 to enter the grooves 4a.

When fixing stackable containers, the system of longitudinal and transverse stiffeners and grooves made in the claimed design allows the container to be securely fixed relative to another, preventing their displacement relative to each other.

On the surface of the housing 1, on one side near the end face, wide stiffening ribs 6 with recesses under the wheels 30 are made, smoothly turning into stiffening ribs 10, protecting the lock latch 28 on the end face, and also acting as a support when installing the container on the end face.

On the opposite side of the housing 1 near the end face two pairs of stiffeners 7 are made, smoothly turning into stiffeners 10 at the end.

A pair of stiffeners 7 forms a groove 8, the shape and size corresponding to the stiffener 6.

These stiffeners and their corresponding grooves form a system of stacking elements of the container. The axis of symmetry of the wide stiffener 2 and the axis of symmetry passing between two narrow stiffeners 3 are symmetrical about the transverse axis of the housing 1 (Fig. 4), i.e. shifted relative to the transverse axis of the container and are located equidistant from the transverse axis of symmetry of the housing 1 by a distance A.

The figure shows that the axis of symmetry of the wide stiffener closest to the transverse axis of the container is at a distance A from it, as well as the nearest axis of symmetry of a pair of narrow stiffeners. Thus, these axes are located at a distance of 2A from each other. At the same distance are other axes adjacent to each other. The axes of the same types of stiffeners are equidistant from each other by a distance of 4A.

A stacking system of stiffeners and corresponding grooves on the outside of the housing allows the container to be fixed relative to containers adjacent to it.

Along the perimeter of the housing 1 there is a rim 11 with protrusions 12. In the protrusions 12 of the rim 11 there are centering bosses 16 and centering holes 17 of an oval shape, as well as holes 18 for installing a padlock and holes for sealing 31. The centering boss 16 is conical and serves centering the two buildings 1 during assembly of the container and enters the centering holes of the oval shape 17, which are located on the opposite side of the housing 1.

In FIG. 1 and 2 show a centering hole of an oval shape 17, which centers two bodies 1 relative to each other when assembling the container by installing centering bosses 16 in them.

On the side 11 small stiffeners 13 are made to ensure the rigidity of the container and to strengthen the angular part.

Also, along the perimeter of the housing, a groove 14 is made for installing an annular sealing strip 15.

On each housing 1 on the sides there are places for a latch-lock 28. The installation location of the latch-lock 28 is formed between two adjacent stiffening ribs 9.

In the ribs 9 made landing holes for the axis of the lock-latch. The main purpose of these stiffeners is to strengthen the vertical outer walls of the container body 1, as well as to protect the latch 28 from mechanical damage during operation of the container. Between the ribs 9 are made two bosses 19, necessary for stop and fixing the locking elements of the lock-latch. The bosses 19 also serve as the installation site for the screws of the brackets 27 on the inside of the housing 1.

A radius groove 20 on the side in front of the bosses is also necessary for locking the lock.

The design of the housing 1 provides places for mounting padlocks. To this end, symmetrical-shaped steel brackets having a spring-loaded state are fixed in the holes 18 for the padlock. The main purpose of the brackets is to strengthen the installation location of the padlock.

The design of the container provides for a handle 29 at each end of the housing 1.

At the ends of the housing 1 near the stiffening ribs 10 for installing the lock-latch 28, there are three boss ribs 21 with landing holes for the handle axis. Between the ribs made two low bosses (not shown), which fix the handle 29 from spontaneous rotation around the axis.

The handle 29 is attached to both the lower and upper parts of the container body by means of two metal axes. The axles are inserted into the aligned holes on the handle and edges of the container. The axis is fixed in the hole by shagreening at one end of the axis.

The distances between the ribs are made so that the handle 29 fits snugly with the housing 1. The middle of the end of the housing 1 has a recess 22, designed for the convenience of gripping the handle 29 with your hands. The flat surface of the recess 22 may serve as a place for applying various markings.

The container design includes wheels mounted on one side of the end face of the housing 1, on which two stiffeners 10 are made. The shape of the inner surface of the space between the stiffeners 10 is made radial.

In the stiffening ribs 6 on the end surface, mounting holes are made for the axis of the wheel 30. Closer to the corner, a recess is made for the convenience of laying fasteners when installing the wheel.

The wheel 30 is attached to the housing 1 of the container using a metal axis-screw with thread. The axis is inserted into the aligned holes in the wheel and ribs of the housing 1.

The axle and wheel are fixed by tightening the nut on the threaded part of the axle-screw.

Other options for locking the axle and wheel are also possible, such as a cotter pin or locking with lock washers or rings.

The rotation of the wheel about the axis occurs due to the ball bearing mounted in the wheel. Bearingless rotation of the wheel is also possible, for example through a cylindrical sleeve mounted in the body of the wheel.

The design of the container provides for the installation site 24 of the seal-valve 25.

To seal the container, thread the filling thread through the holes 31 in the protrusion 12 of the flange 11 and seal it with the valve seal 25. The installation site 24 of the seal valve 25 is protected from mechanical deformation by a pair of narrow stiffeners 3 on the side surface.

Small arms placed in the lodgement of the lower and upper case 1, is fixed from longitudinal-transverse movement by straps 27a, fixed in the case by the bracket 27. The brackets 27 are installed in the grooves 26, made on the inner surface of the walls of the case 1, and are fixed with two screws through the mounting holes in the bosses 19. The holes of the strap 27a are aligned with the holes of the brackets 27 and secured with pins.

Implementation of a utility model.

Small arms are placed in the hulls and secured with longitudinally-transverse slats mounted on brackets.

Cases 1 during assembly of the container are centered relative to each other by installing centering bosses 16 in the center holes 17 of the oval shape. After that, the container is closed with latches 28, sealed and, if necessary, mounted padlocks.

In FIG. 4 shows a layout of container stacking elements with respect to the transverse axis of the container.

The ribs and their corresponding grooves on the outer surface of the casings 1 form a system of stacking elements of the container. The axis of symmetry of the wide stiffener 4 and the axis of symmetry passing between two narrow stiffeners 3 are symmetrical about the transverse axis of the housing 1 (Fig. 4), i.e. shifted relative to the transverse axis of the container and are located equidistant from the transverse axis of symmetry of the housing 1 by a distance A.

The design of each container body is identical. Due to the fact that the stiffeners are shifted relative to the transverse axis of symmetry of the body, when stacking vertically, one of the assembled containers must be rotated 180 degrees relative to the other container so that the stacking elements (protrusions and grooves) of one container mesh with the stacking elements of the other container. (Fig. 5)

Design Advantages:

The implementation of stiffeners with a shift relative to the transverse axis of the housing by a multiple of A and rotation of the housing by 180 degrees allows you to reliably stack containers.

The container is designed in such a way that it contains elements of the stacking system that allow fast and reliable assembly of the stack in storage and / or transportation.

When fixing stackable containers, the system of longitudinal and transverse stiffeners and grooves made in the claimed design allows you to securely fix the container relative to another, preventing their displacement, relative to each other, which ensures the preservation of the transported product.

The claimed technical solution meets the criterion of "novelty", as from the well-known and publicly available sources of information have not identified a similar technical solution.

The claimed technical solution meets the criterion of "industrial applicability", as it can be made from known materials and by known methods.

Claims (4)

1. A container for storing and transporting small arms, comprising two housings fixed to each other, and means for fixing the container relative to adjacent containers when stacking, characterized in that the casings are identical and connected to each other by centering bosses that enter into the centering holes on protrusions of the side of the housings, and the system of locking fasteners, and the means of fixing the container relative to the containers adjacent to it during stacking are made in the form of stiffeners and etstvuyuschih their slots on the outer surface of the housing, the axis of symmetry of the ribs and corresponding grooves are offset from the transverse axis of symmetry of the housing and are equidistant from it. 2. A container for storing and transporting small arms according to claim 1, characterized in that when stacking the combination of stiffeners and their corresponding grooves on the outer surface of the bodies is ensured by 180 ° rotation of one container relative to another. 3. A container for storing and transporting small arms according to claim 1, characterized in that the casing is made of polymer material. 4. A container for storing and transporting small arms according to claim 1, characterized in that the stiffeners and the corresponding grooves are made in a rectangular shape.

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