DE10325040B3 - Downhole layer container for powder-form building material has fluidizing insert in form of woven wire - Google Patents

Abstract

The container includes a fluidized bed (1) pressurized by a gas to feed the material. There is also at least one fluidizing insert (2) in the fluidized bed. The fluidizing insert consists basically of woven wire. The fluidizing insert may be in the form of a fluid cassette in the fluidized bed near one or more outlets (9), with the woven wire stretched on it.

Description

The present invention relates focus on an underground storage containers for powdered building materials in particular. Most of it can act as an underground fluid bunker.

Underground storage containers are usually used to hold powdered building materials, such as cement, in order to ensure or support the route expansion. In addition, such storage containers are used, for example, to store individual components of a two-component strengthening material, which is used for strengthening, in particular, the floor area of a line extension. To do this, the DE 44 01 403 A1 to a storage container that contains a more or less viscous or solid gelatin.

In addition, so-called underground fluid bunkers are known, which are charged with a gaseous fluid from the ground to promote the building material. This means that the powdery building material is brought into a state by means of the gaseous fluid, which favors and / or enables it to flow to one or more fluid outlets (cf. DE 101 44 121 A1 ).

The well-known fluid bunkers to distribute the gaseous So-called fluidization devices in the fluid floor, but the underground Do not meet requirements. This is especially true with regard to on temperature resistance as well as taking into account the DIN 22100, part 6 and 7. Because those mostly used here Plastics are enough not the requirements specified in the aforementioned regulation. Here the invention seeks to remedy the situation as a whole.

The invention is technical Underlying problem, an intraday storage containers for in particular powdery To specify building materials whose fluidization device meets all requirements, especially about the necessary temperature resistance features.

To solve this technical problem is the subject of the invention an underground storage container for in particular powdery Building materials, with a fluid floor, which is conveyed by a fluid of the building material, and with at least one fluidization insert in the fluid floor, the fluidization insert essentially is made up of a wire mesh. The fluid can preferably a gaseous one Act fluid. The fluidization insert mainly has - except for any terminal strips or other brackets - the wire mesh on.

The storage container usually settles composed of steel plates thus already over the flammability required underground. This now also applies according to the invention for the Fluidization use, for the most part is built up from the wire mesh. Because previously came here mostly Plastic fabrics are used that do not have the required temperature resistance feature, still have an antistatic effect.

Both aspects are special Meaning of the underground Business. Because all sparking must be prevented, to avoid mine gas explosions. They have this requirement fluidization inserts previously used did not meet. The also applies with regard to temperature resistance or flammability. Because the previously used plastic materials are only up to little more than 100 ° C temperature resistant and therefore tend to burn easily, making aggravation In addition, toxic gases and / or soot are released can be. Both are for extremely harmful to underground operations.

Therefore the invention proposes the use a wire mesh for the use of fluidization in an underground storage container for in particular powdery Building materials, preferably an underground fluid bunker. Such one Wire mesh is antistatic per se because of its great conductivity the metals used here and the connection with the mostly Steel storage container provides an earth fault practically automatically, so that possibly built-up charges can drain away immediately. The emergence of static electricity as a result of friction, for example, is not possible.

It has proven itself that Steel wire mesh, especially stainless steel, to be made, albeit Naturally other materials, for example brass, copper, etc. are also conceivable are and are encompassed by the inventive concept. especially the Stainless steel variant ensures in addition to the already described advantages (low flammability and therefore temperature resistance as well as antistatic effect) the further bonus effect that the Hygiene is improved. Because the fluidization insert according to the invention Essentially, the wire mesh is easy to clean, without the risk of undetected residues in the tissue remain. Nor can rust develop at all.

As a rule, the fluidization insert is designed as a fluid cassette inserted into the fluid base or base of the storage container. This fluid cassette is usually located in the area of one or more fluid outlets, so that the gaseous fluid flows through the fluid cassette with the wire mesh located therein from below, that is to say on the bottom side. As a result, the powdery building material soaring is fluidized in the desired manner. There At, the wire mesh ensures that the building material in question is converted into the desired flowable state. This is because the wire mesh finely distributes the gaseous fluid in the form of a fan, so that it is distributed over the entire fluidization insert, enters the powdered building material and makes it flowable.

The fluid floor can be in the area of the fluidization use one or more fluid outlets for the gaseous Fluid. As a rule, however, one will use a central fluid outlet, which is arranged in the middle of the fluid cassette and from there regularly flowing air with the help of the fluid cassette or the wire mesh located therein evenly on the powdery Building material distributed. The fluidization insert or the wire mesh or the fluid mat thus formed becomes even with it flowing through the air, so that the powdery building material lying thereon fluidizes becomes.

In detail, the fluid cartridge may be one have holding frames for the wire mesh constructed from terminal strips. Mostly proceed in such a way that the clamping strips clamp the wire mesh between them hold on and in turn be anchored in the fluid floor. Thereby the wire mesh can be easily replaced. That is, the Fluid cassette usually clamps the wire mesh on the fluid floor firmly.

It has proven useful if the wire mesh as a wire mesh composite plate made of individual together connected wire mesh layers is built. Because this will the flow of the gaseous Fluids or the air from the fluid outlet starting through the fluidization insert with the wire mesh particularly evenly in the on the fluidization insert lying on powder Building material initiated. The fluidization is therefore particularly efficient.

The fluid floor can be a predetermined one Inclination towards have a horizontal to the discharge of the fluidized building material from the storage container to favor. Usually has the fluid bottom over several fluidization inserts or fluid cassettes, so that mostly a manifold at this point for the Fluid is provided in the fluid base. This manifold can into individual fluid outlets branch, with each fluid cassette from a central fluid outlet may be applied vertically. However, this is not imperative since also a weird one Loading of the fluid cassette or the wire mesh is possible and is encompassed by the inventive concept.

The fluidized building material leaves the storage containers along the incline formed by the inclination of the fluid floor Level and / or through one or more discharge pipes. That depends on Degree of fluidization or the pressure and the amount of gaseous fluid or the air. Of course also plays the weight as well as the layer thickness on the fluid floor located powdery building materials a role.

As a result, an underground storage container becomes disposal for the first time all Requirements, particularly with regard to security, for underground operations Fulfills. The is realized through the use of a wire mesh of fluidization use reached. Because this wire mesh can be practically not ignite, so that soot formation and / or the emergence harmful Gases is avoided. Added to this is the possibility of using the fluidization easily and to be able to clean it properly, so that the described storage container easily the most diverse Can absorb materials. Here are the main advantages to see.

The invention is described below one is just an embodiment illustrative drawing closer explains; show it

1 an underground storage container according to the invention in a schematic side view,

2 a top view of the fluid cassette with inserted wire mesh and

3 a cut through 2 along the line AA.

In the figures, an underground storage container is shown, which is used, in particular, but not in a restrictive manner, for storing powdered building materials. In the context of the exemplary embodiment, the storage container is an underground fluid bunker. This has a fluid floor 1 , which is trough-shaped and a total of twelve fluidization inserts 2 receives. Of course, the number of fluidization inserts can 2 vary depending on the size of the storage container. With the fluidization inserts 2 are fluid cartridges within the scope of the exemplary embodiment 2 with inlaid wire mesh 3 ,

The building materials stored in the storage container are entered 4 introduced and leave the storage container in the fluidized state via a discharge 5 , There is also an add-on filter 6 realized that ensures that the air valve 7 in the fluid floor 1 injected air as it exits through the top filter 6 does not take any building materials.

Of course, the building materials in the storage container can also be fluidized with a gas other than air or with a liquid. The storage container is of course also suitable for storing other mostly powdery materials, i.e. not necessarily building materials. Either way, the fluidization is 2 with its obligatory openings or holes so that the material to be fluidized or the building material cannot pass through these holes. On the other hand, this ensures from the Lö The outflowing fluid or air ensures that individual material particles are separated from one another and assume a water-like consistency so that the described transport succeeds in the fluidized state.

From the gas or air valve 7 several manifolds go for the air or fluid supply 8th from which can be divided into individual fluid outlets 9 branch. You can see that there is a manifold 8th in four fluid outlets 9 branches, each fluid cassette 2 from a central fluid outlet 9 is applied vertically, as in the 2 is indicated.

From the respective fluid outlet 9 starting with the help of the collecting valve 7 over the manifolds 8th supplied air or the gaseous fluid in the fluid floor 1 on. The air or the gaseous fluid passes through the fluid cassette 2 and in particular the wire mesh 3 in this fluid cassette 2 , The fluid cartridge actually has 2 via terminal strips 10 who the wire mesh 3 hold or clamp.

Based on the illustration 3 you can see that there are two terminal strips 10 the wire mesh between them 3 hold on to the terminal strips 10 a total of a clamping frame according to the illustration 2 to form. This clamping frame from the terminal strips 10 comes along with the wire mesh 3 in the fluid floor 1 anchored, according to the embodiment with the help of screws 11 screwed. Of course, there are also other connection measures between the fluid cassette 2 and fluid bottom 1 conceivable.

The one from the respective fluid outlet 9 escaping air is under the wire mesh 3 evenly distributed and flows through the wire mesh 3 so that from the wire mesh 3 escaping air that on the fluid floor 1 fluidized material. In the fluidized state, the building material or the fluidized material then gets into a blow head or moves along the fluid floor inclined with respect to a horizontal H. 1 towards the discharge 5 ,

The wire mesh 3 is constructed in the context of the representation as a wire mesh composite panel from individual interconnected wire mesh layers. These wire mesh layers can be intertwined or otherwise connected. The wire mesh is made of steel, in particular a stainless steel, to ensure a long service life. The fluidized building material can the fluid bunker shown along the inclined plane over the discharge 5 leave and / or by an additional discharge pipe, not shown in a blow head.

Claims (11)

Underground storage container for in particular powdery building materials, with a fluid base ( 1 ), which is acted upon by a fluid to convey the building material, and with at least one fluidization insert ( 2 ) in the fluid bottom ( 1 ), the fluidization insert ( 2 ) essentially from a wire mesh ( 3 ) is constructed. Storage container according to claim 1, characterized in that the fluidization insert ( 2 ) than in the fluid floor ( 1 ) in the area of one or more fluid outlets ( 9 fluid cartridge used ( 2 ) with the wire mesh stretched from it ( 3 ) is trained. Storage container according to claim 1 or 2, characterized in that the fluidization insert ( 2 ) one from terminal strips ( 10 ) built-up holding frame for the wire mesh ( 3 ) having. Storage container according to one of claims 1 to 3, characterized in that the fluidization insert ( 2 ) the wire mesh ( 3 ) with the fluid bottom ( 1 ) connects. Storage container according to one of claims 1 to 4, characterized in that the wire mesh ( 3 ) is constructed as a wire mesh composite panel from individual interconnected wire mesh layers. Storage container according to one of claims 1 to 5, characterized in that the fluid base ( 1 ) has a predetermined inclination with respect to a horizontal (H). Storage container according to one of claims 1 to 6, characterized in that the fluid base ( 1 ) at least one manifold ( 8th ) for the gaseous fluid, the manifold ( 8th ) in individual fluid outlets ( 9 ) branches. Storage container according to one of claims 1 to 7, characterized in that each fluidization insert ( 2 ) from a central fluid outlet ( 9 ) is acted upon in real law. Storage container according to one of claims 1 to 8, characterized in that the wire mesh ( 3 ) made of steel, especially stainless steel. storage containers according to one of the claims 1 to 9, characterized in that the fluidized building material leaves the storage container along the inclined plane and / or through a discharge pipe. under Day storage containers according to one of the claims 1 to 10, characterized in that the fluid is a gaseous Fluid acts.