DE102008029405A1 - Fabric package for use as heat storage or regenerator in stirling engine, has fabric layers provided with more than ten chaining threads or weft threads, where contact points of fabric layers are distanced from each other - Google Patents

Abstract

The package has fabric layers (1) provided with more than 10 chaining threads (2) or weft threads (3), which are thinner than 200 micrometers. The fabric layers lie together in a planar manner, and contact points of the fabric layers are distanced from each other by deformation units i.e. nap (5-7), in a fabric (4), where the distance between the deformation units is larger than extension of the deformation units that are arranged in a spaced manner. Each layer consists of a rolled fabric, which is exhibited in the form of a ring.

Description

The The invention relates to a fabric package having a plurality of fabric layers, the use of such a tissue package and a regenerator.

tissue pacts with several layers of fabric are called heat storage or regenerator in heat engines used. Further fields of application can be found in filtration technology the production of catalysts, in screening technology, etc.

The Connection of the individual fabric layers takes place in many cases Sintering flat metal fabric layers, through spaced frames or spacers between the fabric layers.

Especially for the Production of regenerators requires a good heat exchange, whereby the heat conduction in the flow direction as low as possible should be. It is particularly advantageous when with each other lying layers, the density is less than 70%, that is, the porosity calculated as volume pores to volume material is greater than 70%.

such for example the production of regenerators in Stirling machines will be needed porosities through the selection of special fabric layers, their weave and a achieved special layer structure.

Of the Invention is based on the object, a fabric package with several To develop tissue layers so that with as possible low production costs achieved a particularly high porosity can be.

These Task becomes with a fabric package with several layers thereby solved, that the fabric layers abut each other and the contact points the fabric layers more than 5, preferably more than 10 warp or wefts spaced apart from each other.

Provided Tissue layers of tissue packages abut each other, lie in usually alternately warp and weft threads on each other, which ever according to tissue type a specific density is given. By the Training the tissue type, the density can be reduced. The achievable However, density reduction is set according to the type of fabric, resulting in depending on the type of fabric used yield maximum achievable porosity.

Of the The invention is based on the knowledge that the tissue layers can also be formed in such a way on the one hand, they abut each other and, on the other hand, the contact points the fabric layers a plurality of warp or weft filaments gestas from each other are.

A advantageous embodiment provides that the tissue layers through deformations in the tissue are spaced. For example, by waves or kinks in the tissue can do that be taken care that when stacking tissue layers this Layers are placed on each other so that the contact points the fabric layers a plurality of warp or weft threads spaced from each other are. This results in a particularly loose construction of fabric layers.

A simple manufacturing variant provides that the deformations are marked. By imprinting can a structure is achieved with permanently deformable fabric layers which are a permanent three-dimensional deformation of the tissue layer causes.

Especially In the production of deformations by embossing, it is advantageous if the deformations are pimples. Through the formation of pimples can through on the surface a few contact points distributed a secure spacing of the tissue layers be achieved.

Around To achieve a reproducible density, it is suggested that the deformations are arranged at regular intervals are. Allow the regular intervals it about it In addition to calculate a deformation that has a minimum number of contact points with simultaneous stability of the fabric package allows.

In Practice has been found to be beneficial for many applications is when the deformations are at least twice as deep as the tissue are thick. Such deformations allow a high porosity at the same time stable construction of the fabric package.

Farther has proven to be advantageous when the distance of the deformations is larger as their extension. For example, in the case of nubs is the distance the knobs are chosen larger than the diameter of a single knob.

Around to obtain a low fluid resistance, it is proposed the maximum extent of deformation is more than 5, preferably more spanned as 10 warp or weft threads. There are thus proposed individual small deformations, the cause that the fabric layers are approximately parallel to each other and the Deformations in their size so small be held that their task with low flow obstruction as spacers can.

For many Applications, it is advantageous if the tissue layers plan to each other lie. Fabric packages are created by stacked cut out tissue plates, by shaping the tissue plates are spaced.

Especially For the production of cylinders, it is proposed that the fabric layers are formed from a rolled-up fabric. This can be up simple way cylinder or hollow cylinder can be made.

This allows to make it a fabric package in which the rolled-up fabric the shape of a piece of pipe having. tubular Fabric packages are used in particular as a regenerator for heat engines needed.

Especially for the Production of such regenerators, it is advantageous if the Fabric package has more than 5, preferably more than 10 layers.

Farther is especially for Regenerators demanded that the fabric package has a porosity of more than 70%, preferably more than 80%. Such high porosities at at the same time good heat exchange are easy to use, especially with the fabric package according to the invention achieve.

Especially good practice results have been achieved with tissue packages in which Threads of Tissue layers thinner as 200 μm are. Here you can either single threads the tissue layers thinner as 200 μm be, or it can also all threads at least one layer of tissue thinner as 200 μm be. With the thin ones Threads can a very fine fabric to be woven, which also has a high density can have. Due to the special shape of the fabric package can However, even with such fine tissue layers achieved high porosity become.

A special longevity of the fabric package at the same time high stability is achieved by threads the fabric layers are metal. Preferably, all threads are the Fabric layers made of metal. For example, have yourself for the Use of the fabric package as a regenerator fabric layers off Proven bronze or copper.

Further Particularly advantageous applications are revealed when the threads of the Fabric layers are made of stainless steel. Also stainless steel mesh are suitable for Regenerators. they allow however about it addition, other applications as a fabric package.

One Particularly advantageous application is in the use of such a tissue package for a heat engine. Here, the fabric package is used as a regenerator to a good heat exchange and at the same time to achieve a high porosity.

object The invention is therefore also a regenerator, such a Has tissue package.

schematic Views explaining the Construction of such fabric packages are shown in the drawing and are explained below. It shows

1 a section through a knob-like deformed fabric layer

2 a section through a fabric package of knob-like deformed fabric layers,

3 a section through a fabric package of a rolled-up knob-like deformed fabric layer and

4 a section through a fabric package of concentric with each other arranged knob-shaped fabric layers.

In the 1 shown fabric layer 1 consists of warp threads 2 and weft threads 3 leading to a tissue 4 interwoven with each other. This tissue 4 is made of a stainless steel material having such a stability that it retains this shape as a fabric after an applied deformation. In the 1 shown wavy shape of the fabric 4 results from the representation of a fabric having a knob-like deformation in its three-dimensional extent. For this purpose, in the first plane tissue 4 burl 5 . 6 . 7 imprinted, which have a circular extent in the plane of the tissue.

This in 2 shown fabric package 8th consists of four fabric layers 9 . 10 . 11 and 12 that lie on top of each other. This forms contact points 13 (numbered as an example). At these contact points, the fabric layers lie on one another, in particular warp and / or weft threads abutting one another. Due to the deformation of the individual fabric layers, large voids are created between the fabric layers which ensure a high porosity of the fabric package. In the in 2 shown embodiment per unit area very many deformations are arranged as nubs. However, depending on the exemplary embodiment, there are also far fewer nubs or deformations per surface so as to keep the fabric layers spaced apart from one another in the fabric package. Besides, not every ge Have web layer deformations, but it can also be performed, for example, every second layer of fabric plan.

This in 2 The exemplary embodiment shown clearly shows how a looser structure of a fabric package can be achieved by the deformations introduced into the fabric layers.

In 3 is a spiral-wound fabric layer 20 shown in their rolled-up form a fabric package 21 forms. Even in the rolled-up form, knob-like deformations are used 22 to ensure a certain distance between adjoining areas of tissue layers. The exemplary embodiment shows that the tissue layers can also be formed by different regions of a rolled up tissue.

This in 4 embodiment shown shows a fabric package 25 from several concentric nested annular tissue layers 26 . 27 . 28 . 29 and 30 , Again, in the tissue layer exemplified 28 a deformation 31 provided that the plane lie against each other prevents the tissue layers and ensures a distance between the tissue layers.

On this way are cylindrical rings with 30 to 60 mm Height and a diameter of 100 to 170 microns created as a ring generator for heat engines to serve. The wires for producing the fabric layers for the regenerators have in usually diameter, which are less than 160 microns. The preferred material for making the wires is stainless steel. From this fabric layers are made, the knobs for the spaced arrangement of the tissue layers together. The edges of the tissues are preferably made with a plasma cut deserted. The regenerators produced in this way hold temperatures up to the Range from 400 to 600 ° C out.

Claims (18)

Fabric package with multiple layers of fabric, characterized in that the fabric layers abut each other and the contact points of the fabric layers more than 5, preferably more than 10 warp or weft threads are spaced from each other. Fabric package according to claim 1, characterized that the tissue layers are spaced by deformations in the tissue are arranged. Fabric package according to claim 2, characterized that shaped the deformations are. Fabric package according to claim 2 or 3, characterized that the deformations are nubs. Fabric package according to one of claims 2 to 4, characterized that the deformations are arranged at regular intervals are. Fabric package according to one of claims 2 to 5, characterized that the deformations are at least twice as deep as the tissue are thick. Fabric package according to one of claims 2 to 6, characterized that the distance of the deformations is greater than their extent. Fabric package according to one of claims 2 to 7, characterized that the maximum extent of deformation is more than 5, preferably spans more than 10 warp or weft threads. Fabric package according to one of claims 2 to 8, characterized that the fabric layers lie flat on each other. Fabric package according to one of claims 1 to 8, characterized the fabric layers are formed from a rolled-up fabric. Fabric package according to claim 10, characterized the rolled-up fabric is in the form of a ring. Fabric package according to one of the preceding claims, characterized characterized in that the tissue package more than 5, preferably more as 10 layers. Fabric package according to one of the preceding claims, characterized characterized in that the fabric package has a porosity of more than 70%, preferably more than 80%. Fabric package according to one of the preceding claims, characterized characterized in that threads the tissue layers thinner as 200 μm are. Fabric package according to one of the preceding claims, characterized characterized in that threads the fabric layers are metal. Fabric package according to one of the preceding claims, characterized characterized in that threads the fabric layers are stainless steel. Use of a fabric package according to one of the preceding claims for a heat mekraftmaschine. Regenerator, characterized in that it is a Fabric package according to one of the claims 1 to 16.