DE20023859U1 - Anti-explosion packing for tanks filled with explosive liquid comprises rolls of wire mesh fabric - Google Patents

Abstract

The anti-explosion packing for tanks filled with explosive liquid comprises rolls (4) of wire mesh fabric. These are fitted with a sheet metal sleeve (6) and an outer winding (8) of wire mesh fabric : An independent claim is included for tanks containing the packing.

Description

The The invention relates to packing as explosion protection for one Tank with an element of material of high thermal conductivity, in particular aluminum.

Such fillers are for example from the DE 3816792 A1 known. According to this document explosions of containers with explosive liquids by filling these containers with lattices of metal foil to be prevented. This metal foil occupies only a negligible fraction of the volume of the container, although it must fill this completely. According to the DE 3816792 A1 are the filler balls of expanded metal.

Similarly, the teaches DE 19756807 A1 the production of packing from cylindrically wound expanded metal. Expanded metal elements as fire protection for use in the construction industry are also from the EP 0345740 A2 and the EP 0349881 A1 known.

The in all cases mentioned used aluminum expanded metal is due to its strength low weight but above all because of its high thermal conductivity used.

One Tank should be for an explosion protection with a material of high thermal conductivity be filled almost equally. Due to the thermal conductivity the material becomes a locally occurring heat surplus, for example by sloshing an explosive liquid immediately over larger volume distributed. Thus, the temperature is locally below the ignition temperature kept and thus avoided an explosion of liquid, which, when the heat energy would not be distributed due to much higher Temperatures could take place. The described technique is for conventional Tanks usually also completely sufficient. Difficulties for An effective explosion prevention can, however, above all else resulting in tanks whose fuel tank is under attack locally can be heated up a lot and where the fuel like much easier with the "Leopard" inflammable is. Especially for such increased Requirements is a much better heat distribution desired than she with the packing after achieved in the prior art.

in the Principle could keep in mind the previous expanded metal sheets accordingly thin too and use more foils to distribute the heat more evenly across the tank space. This would unnecessarily increase the filling costs.

task The invention is accordingly, a new filler as Explosion protection for to create a tank that makes the heat much more uniform over the Tank volume distributed, ensuring adequate stability shall be. In particular, these packing should also be inexpensive to produce be.

The Task is solved by that the filler at least partially formed as a knitted wire.

One Knit of very thin Wire can be suitable To run, without it coinciding under its own weight, since the knit structure one opposite increased the expanded metal Has strength. Furthermore let yourself manufacture a knitted fabric industrially in a simple manner.

at especially thin wires and one opposite thicker wires increased Number can be one Fill tank as evenly as you like. Due to the Variety of wires high thermal conductivity, is then the heat generated by movement on the entire tank more effectively distributed, even in extreme conditions like the bombardment of one Tank like the "Leopard".

Especially is suitable as a material aluminum because of its high conductivity also in the case of the packings according to the invention. however Other metals are also suitable, if for example one increased Wants to achieve strength. In particular, silver, Insert gold or aluminum coated steel wires, the steel then Ensures the appropriate strength and coating the appropriate thermal conductivity supplies. Also by the relevant Material selection, strength and thermal conductivity can be almost any need to adjust.

above already the simple production was addressed. Knitted fabric can be especially industrially on a circular knitting machine, whereby a tubular knit arises. With a winding body Such a tubular knit can be obtained in a simple manner Packing of suitable size and uniformity.

According to one embodiment is the filler in Layering technique produced. For this purpose, the wire mesh tube is repeated turned over so that several over each other lying situation arise.

To increase the strength according to a preferred embodiment of the invention, it is provided that the winding end with wire, in particular with a stainless steel wire, is sewn off. For example, when moving in the tank by sloshing of the fuel, forces between the wires occur which could cause the tissue to seize at the two ends triggers. Sewing on the other hand creates the corresponding desired long-term stability.

Of the Use of a stainless steel wire for stitching is because of the lower thermal conductivity first unexpectedly. For However, this purpose does not depend on the thermal conductivity, but essentially on the strength. The reduced thermal conductivity suggests it hardly to book, above all, because no serious thermal resistance occurs, i.a. because the sewed Stainless steel lies close to the aluminum.

As has already become clearer from the above is It is especially important that the Knitted as possible filling a lot of space, the material is one as possible low volume occupies. This can be achieved according to a preferred embodiment The invention advantageously characterized in that the fabric is corrugated. The curl also creates greater stability against Deformation.

With Wire mesh made of wires suitable thickness can be always the desired one stability of the packing against Make deformation. Especially with very thin entangled wires, is according to a advantageous development of the invention provided that within of the knitted fabric a Stüzeinlage is made of a material that is the same or a lower thermal conductivity like the material has, from which the wire mesh is made. This has the advantage that not too much volume is filled while maintaining even heat distribution. The stability then becomes very thin wires through the support insert ensured. To the equal distribution of heat due to the filler not should interrupt the material from which made the insole is to have the same or lower thermal conductivity as the material, from which the wire mesh is made.

The Making a filler seems first when providing a support insert unnecessary to be difficult. A particularly simple design in which this supporting lining is unproblematic, is according to a preferred development of the invention given by a filling body, characterized in that one about a longitudinal axis helical knitted wire is provided to the as a support insert bent a sheet and this in turn another layer of knitted wire is winding.

The does not mean that Packing necessarily must be cylindrical. By pressing the thus wound cylindrical packing from one side also fillings with achieve substantially elliptical cross-sections, which in special cases especially for filling the tank with packing, cheaper as a cylindrical body can be. However, it is essential according to this development of the Invention a mirror symmetry with respect to the longitudinal axis.

Around to achieve a corresponding strength, that should be used as a support insert used sheet metal a certain permeability to the fuel in a tank to have. This is in a preferred embodiment of the invention provided that the sheet an expanded metal is.

One Such filler is in its embodiment with the support insert with respect to achievable stability can be optimized in connection with the material requirement. Is the sheet lying very far out in the filler, it could at bumps of Packings against each other be deformed. If the plate is very close to the longitudinal axis, it is barely able to, even outer layers to support.

The Optimum is according to a preferential development of the invention achieved by the sheet the packing vertically to the longitudinal axis with a relationship each to the longitudinal axis measured distances from the outside divided into sheet metal between 0.5 and 0.9.

by virtue of the upper limit for the ratio of 0.9 is always a layer of knitted wire around the sheet, this padded and against deformation due to abutting juxtaposed Packing protects. A similar one Advantage of upholstery receives one in the longitudinal direction In addition, if according to one preferred embodiment of the invention is provided that the sheet Completely wrapped in knitted wire is. This means in cylindrical bobbins, that the Knitting windings on both sides of the longitudinal axis over the sheet protrude.

As already explained above was, it depends on the effective explosion protection that the thermally conductive Material evenly distributed is. The amount of material is for the explosion protection itself insignificant. However, you will, for example at a tank require that through the material the volume of the tank is reduced as little as possible. That is why according to a Preferably, the invention provides that the ratio of average density of the filler to specific density of the material or the ratio of material filled volume to the total volume is less than 0.03.

It loses less than 3% of the tank volume, which generally sufficient heat conduction is achieved in the tank. The mentioned loss is tolerable even for tanks consuming a large amount of highly flammable fuel chen.

Around slipping of the packing too prevent, but also with a full tank the highest possible To ensure explosion protection is a tank according to the invention characterized in that is completely filled with at least one of the previously described filler. The fillers are lying due to the complete filling always with shocks to each other, just then a complete heat conduction through the tank guarantee.

Further Particular features of the invention will become apparent from the following Description of exemplary embodiments with reference to the attached Drawing. Show it:

1 A first embodiment of the invention a. Front view, b. Side view;

2 a similar embodiment as in 1 but with different shapes a. Front view, b. Side view.

If the invention also by completely Wire-knit fabricated packing is executable, so shall in the following, however, without limitation of generality, exclusively filler with support inserts be described, which in particular have a simple shape and that are easy to manufacture.

Both embodiments of 1 and 2 are elongated bodies with a longitudinal axis 2 , This longitudinal axis 2 is the center of a first bobbin 4 made of knitted wire. Around this bobbin 4 is a support insert 6 wound from a sheet of expanded aluminum metal, in turn, a second bobbin 8th is wound. In the examples according to

1 and 2 is the second bobbin 8th each in the same sense as the first bobbin 6 however, it is also possible to wind both bobbins in opposite directions. However, the same Wicklungsinn prevents unwinding during winding of the second bobbin 8th and thus guarantees a uniformity of the wire mesh while at the same time being easy to manufacture.

In the second bobbin 8th a sign became near the outer winding 10 wrapped on which the serial number and the type can be imprinted. All parts, including the shield 10 , are made of aluminum, to create no thermal bridge and to ensure overall high and good conductivity.

The winding body 4 and 8th are made of curled tubular knit fabric knitted with 0.30mm round aluminum 99.5 wire. The end of the coil was sewn in each case with a stainless steel wire S. 1.4301 of 0.28 mm diameter. The exposed after sewing wire end is in the final packing to the inside, whereby a mutual hooking adjacent filler is avoided.

This as a support insert 6 used sheet metal is completely surrounded by tissue, in particular from the 1b and 2 B it can be seen that, that is, the ends of the winding body 4 and 8th stand over at the ends of the sheet. The density of the two fillers of 1 and 2 was kept smaller than 80 kg / m ³ .

The simplest form for producing a packing is in 1 shown, which represents a simple cylinder. The embodiment according to 2 runs conically and is elliptical at least on one side. The different shape depends essentially on how these fillers to be introduced, for example, in a tank. In the 2 shown form can be, for example, in accordance with 1 obtained by producing the embodiment of 1 a molding process is performed.

It is essential in all examples that due to the wire mesh and very thin wires are used, whereby the uniformity of the heat conduction over aluminum expanded metals ensures and in general also increased stability is given. To further increase the stability is in particular a support body 6 intended.

Claims (12)

Packing as explosion protection for a tank with an element of material of high thermal conductivity, in particular aluminum, characterized in that the filler body is at least partially formed of wire mesh. After filling Claim 1, characterized in that it is formed of layers of tubular knitted fabric is. Packing according to Claim 1, characterized in that it is in the form of a wound body ( 4 . 8th ) is formed of tubular knit fabric. After filling Claim 3, characterized in that the winding end with a Wire, in particular with a stainless steel wire, is sewn off. Filler according to one of claims 1 to 4, characterized in that the fabric is corrugated is. Filler according to one of claims 1 to 5, characterized in that within the wire mesh a support insert ( 6 ) is made of a material having the same or a lower thermal conductivity as the material from which the wire mesh is made. Packing according to claim 6, characterized in that one about a longitudinal axis ( 2 ) wound wire knit is provided to the as a supporting body ( 6 ) bent a sheet and this in turn another layer ( 8th ) is wound from wire mesh. After filling Claim 7, characterized in that the sheet metal is an expanded metal, an expanded metal mesh, a perforated metal sheet or any other flat permeable metal structure is. Packing according to claim 7 or 8, characterized in that the sheet metal filling body perpendicular to the longitudinal axis ( 2 ) with a ratio of each to the longitudinal axis ( 2 ) measured distances from the outside to the sheet between 0.5 and 0.9 divided. After filling one of the claims 7 to 9, characterized in that the sheet completely from Wrapped in knitted wire is. After filling one of the claims 1 to 10, characterized in that the ratio of average density of the filler to specific density of the material or the ratio of material filled volume to the total volume is less than 0.03. Tank, having an explosion protection, characterized characterized in that Explosion protection of at least one packing according to one of claims 1 to 11, with which the tank is completely filled.