DE10348508A1 - Mobile ammunition container - Google Patents

Abstract

Use of a reinforcement mat for producing a mobile, cylindrical ammunition container, which reinforcement mat several, preferably at least ten, layers of spaced apart, formed from fabric strands fabric layers (10 a, 10 b, 10 c), wherein the fabric layers are designed and arranged that about the reinforcement mat thickness is a change in the mesh or hole widths of the fabric layers, such that in the cement mortar or concrete infiltration a sieving effect is effected, such that concrete aggregate grains of different sizes on the reinforcement mat thickness ordered according to their size are fixed substantially in predetermined positions.

Description

mobile ammunition container usually consist of explosion-proof metal, metal alloys, but especially made of steel.

Stationary ammunition storage made of concrete are called WO 99/42678.

Becomes a steel container statically loaded up to break by an internal pressure, so few arise size Fragments. The container rips at the weakest Place, mostly along the welds. But he will go up dynamically loaded, if in its interior an explosive explosion takes place, the container fragments in a lot of small debris.

A similar phenomenon can be observed in concrete. Typical behavior of components Reinforced concrete and prestressed concrete under explosive stress is a fragmentation of components, independent of component strength. This fragmentation, in addition to the pressure wave, poses a significant danger potential dar. The detached Broken concrete are shot as a result of the released pressure wave to a kind of fragmentation for the surrounding areas.

Of the Invention is based on the object, a relatively thin-walled mobile ammunition container Concrete to provide effective protection during explosive explosions offers.

It has been surprising shown that especially stable ammunition container can be produced if for their preparation according to the invention in WO 01/23685 A1 described reinforcement mat with at least ten Layers of spaced apart, formed by tissue strands Fabric layers is used, the fabric layers designed and are arranged over that the reinforcement mat thickness changes the mesh or hole widths the fabric layers is present, such that in the cement mortar or Concrete infiltration is a screen effect is effected, such that concrete aggregate grains of different sizes ordered by the size of the Component thickness are fixed substantially in predetermined positions.

For the production an ammunition container Concrete is according to others Invention the use of a reinforcing mat advantageous in the targeted between adjacent layers of tissue layers displacement body are positioned, in addition to a stiffness regulation, too have the function of spacers, especially if the individual Fabric layers perpendicular to their planes by Verschnürungselemente tied together are.

By the inventive use of a such reinforcing mat in the manufacture of a mobile ammunition container the explosion safety significantly increased when the fabric layers so are arranged that the mesh sizes of the fabric layers of the Container outside to the container inside increase. In this way, a filtering of concrete surcharges or Concrete aggregate grains due to a sieving effect, resulting in larger aggregate grains in the Inner wall area and smaller aggregate grains positioned in the outer wall area become. By positioning large aggregate grains on the inner wall side of the resistance to compressive forces is increased, and this effect has a particularly positive effect on one cylindrical ammunition container, at the highest in the explosion case Pressure forces on the container inside are effective.

The Sieve effect is achieved by varying the mesh size or by targeted Offset one above the other or side by layer layered fabric layers realized, respectively have the same mesh size. The wall construction can be single-layer, be multi-layered or multi-shelled.

One mobile, especially cylindrical ammunition container made of concrete is characterized characterized in that it has a reinforcement of several layers of fabric in the form of welding grid layers with wire sizes from 0.5 to 3.5 mm and hole or mesh sizes in the range of about 5 - 60 mm contains. Such a reinforcement can also be called a micro-reinforcement.

It thus arise from micro-reinforced high-performance concrete relatively thin-walled container with a wall thickness from about 40 mm, as mobile ammunition or explosives container can be used.

According to others Invention, the container can be monolithic, i.e. in one piece be cast, or it can be made of cylinder segments with the advantage of lower partial weights for manual transport or Construction.

The container is preferably provided with a designed as a sliding door concrete part, which has the same structure as the rest of the container wall. The arc formed by the door is inventively larger than the actual door opening, such that in the case of an explosion, the anchoring of the door on the contact pressure of the door on the Behäl terinnenwand takes place.

Of the container is preferably equipped with a lid, which essentially the same reinforcement mat construction has as the tank cylinder. The fixation the lid on the container should be designed so that in case of an explosion the lid is unfolded, which practically formed a breaking point is.

A Another variant is a firmly anchored to the container lid Pressure relief openings.

The Tank top may preferably have the shape of a truncated cone.

Of the ammunition container according to the invention in the following with reference to the drawing:

1 shows a side view of an ammunition container;

the 2a and 2 B show sectional views along the line AA in 1 in the door area;

3 shows a sectional view along the line BB in 1 ;

4 shows sectional views along the line CC in 1 ;

the 5a . 5b and 5c show in cross-section a single-shell, a multilayer and a multi-shell container;

the 6a and 6b show the positioning of the larger concrete aggregate grains in the area of the container inner wall and the size of the concrete aggregate grains decreasing as a result of the inventive use of a reinforcing mat which exerts a sieve effect in the direction of the container exterior;

7 shows a schematic representation of the cement mortar or concrete infiltration in the manufacture of the container.

the 8a and 8b show two embodiments of a door anchor on the inside of the container;

9a to 9c show views of preferred reinforcing mats used.

The in 1 schematically illustrated container 1 For example, has a height h = 2.6 m, an outer diameter D _outside = 200 cm and an inner diameter D _inside = 190 cm. The containers can also have a smaller inner diameter down to 50 cm.

The Cylinder wall has a reinforcement of several layers of fabric in shape of welding grid layers with wire sizes from 0.5 to 3.5 mm and mesh sizes from 5 to 60 mm.

According to the sectional view 2a is a door 2 provided, the circumferentially outwardly projecting mounting edges, which engage in corresponding, groove-shaped recesses on the Behälterinnenwan. In the container interior are guide rails 3 attached, along which the door 2 can be slid, if it has been previously pressed along suitable, not shown guides inward.

3 shows the container wall outside the door area.

4 shows sectional views in the region of the container lid and in the region of a container bottom plate, by means of fastening elements 4 attached to the cylindrical container wall. The bottom plate and the lid preferably have the same structure as the cylindrical container wall. However, the bottom plate can also be omitted.

5a schematically shows a single-shell container wall 1 ;

5b shows a multilayer wall structure with on the inside of the container wall 1 attached absorber layer, z. B. a polymer concrete shell 7 ;

5c shows a multi-shell construction, consisting of two nested, spaced apart cylindrical container walls 1 . 1';

6a shows a vertical section and 6b shows a horizontal section, from which the positioning of different sized concrete aggregate grains is visible when in the in 9a - 9c shown reinforcement mats has been used with multiple layers of fabric whose hole or mesh sizes decrease from the container inside to container outside.

7 shows the between two formwork bodies 5 taking cement mortar or concrete filtration from below, wherein the concrete infiltration has to be done from the inside, if using a reinforcing mat with decreasing from inside to outside mesh sizes of the individual fabric layers while concrete infiltration can take place from the outside when fabric layers of equal mesh size are used.

8a shows a horizontal section in the area of a door 2 , which is equipped with skirting, which engage with closed door in corresponding recesses on the inside of the container;

8b shows an embodiment of a door in which in the region of the container opening circumferentially inwardly projecting support strips are formed while the door 2 equipped on its outside with circumferential support strips, which engage behind the support strips of the cylinder wall.

9b shows in exploded view one of several layers of fabric 10 existing reinforcing mat with a coarse-meshed fabric layer 10a , a fabric layer having a medium mesh size 10b and a fine-mesh fabric layer 10c , 9a shows integrated displacement bodies between the fabric layers 11 , which at the same time have the function of spacers, whereby the mesh sizes decrease from one to the other side of the reinforcing mat.

9c schematically shows a reinforcing mat, in which the individual fabric layers are tied together perpendicular to the fabric layer plane.

Claims (13)

Use of a reinforcement mat for producing a mobile, cylindrical ammunition container, which reinforcement mat comprises a plurality of, preferably at least ten layers of spaced-apart tissue layers ( 10a . 10b . 10c ), wherein the fabric layers are designed and arranged such that over the reinforcement mat thickness there is a change in the mesh or hole widths of the fabric layers, such that in the cement mortar or concrete infiltration a screening effect is effected, such that concrete aggregate grains of different size on the Reinforcing mat thickness ordered according to their size are fixed substantially in predetermined positions. Use of a reinforcement mat according to claim 2, at between the individual layers of fabric before the concrete infiltration Displacement body different Size positioned are those that have the function of spacers. Mobile, in particular cylindrical ammunition container Concrete, characterized in that it comprises a reinforcement of several, in particular at least ten fabric layers in the form of welded grid layers with wire sizes in the range of about 0.5 to 3.5 mm and mesh sizes in the range from about 5 to 60 mm. Ammunition container according to claim 3, characterized in that it comprises a reinforcing mat with a plurality, preferably at least ten, layers of fabric layers ( 10a . 10b . 10c ) to form components by infiltration of cement mortar and / or concrete and Betonzugschlagskörnern of different sizes, wherein the fabric layers are designed and arranged so that on the reinforcing mat thickness is a change in the mesh or hole widths of the fabric layers, such that in the Cement mortar or concrete infiltration a screening effect is effected, such that the aggregate grains are fixed according to their size ordered over the component thickness substantially in predetermined positions. ammunition container according to claim 4, characterized in that the sieving effect by Variation of the mesh size and / or by offset one above the other or side by layer layered fabric layers is realized, the each have the same mesh size. ammunition container according to claim 3 or 4, characterized in that it has a single-layer structure Has. ammunition container according to claim 3 or 4, characterized in that it has a multilayer Structure having a layer through one on the inside the container wall attached absorber layer, preferably a polymer concrete shell, is formed. Ammunition container according to claim 1 or 4, characterized in that it has a multi-shell structure consisting of at least two nested, spaced apart cylindrical container walls ( 1 . 1' ) Has. Ammunition container according to claim 3 or 4, characterized in that it has a door ( 2 ) with circumferentially outwardly projecting fastening edges, which engage in groove-shaped recesses on the container inner wall, and in the container interior in the circumferential direction extending guide rails ( 3 ), along which the door ( 2 ) can be slid. Ammunition container according to claim 3 or 4, characterized in that it has a lid ( 9 ' ) and optionally a bottom plate ( 9 ) in the form of concrete slabs, which has a reinforcement of several layers of fabric in the form of welded mesh layers Have wire thicknesses in the range of about 0.5 to 3.5 mm and mesh sizes in the range of about 5 to 60 mm, and that the lid on the cylindrical container wall ( 1 ) is fixed. ammunition container according to claim 3 or 4, characterized in that it has a lid in the form of a truncated cone. ammunition container according to claim 10 or 11, characterized in that the lid Predetermined breaking points in the form of areas with lower strength than the rest Has lid areas. ammunition container according to claim 1 or 4, characterized in that it is in the range circulating the container opening has inwardly projecting mounting brackets, and that the door on her outside equipped with circumferential brackets, behind the brackets grab the cylinder wall.