DE102011112289A1 - Chemically durable spacer textile - Google Patents

Abstract

The invention relates to a spacer textile (1) comprising an upper textile (2), a lower textile (3) and a spacer layer (5), wherein the upper textile (2) and the lower textile (3) are interconnected by the spacer layer (5). The top fabric (2), the bottom fabric (3) and the spacer layer (5) are monofilament fibers of inert fluorocarbons. The invention further relates to the use of the spacer textile (1) according to the invention as at least partial sheathing of an electrode (13, 14) in a plating tank (11), as a lining of working, storage and / or transport surfaces (31), or as filter or carrier material in chemically aggressive media.

Description

The invention relates to a spacer textile.

Spacer textiles are known in the art. They comprise an upper textile and a lower textile which are connected to one another via a spacer layer, the spacer layer thereby providing a three-dimensional structure of the spacer textile. Depending on the configuration of the spacer layer, spacer textiles may have different properties, for example with regard to resilience and damping effect. Both the top fabric, the bottom fabric and the spacer layer are formed from fibers.

Object of the present invention is to provide a chemically durable resistant spacer fabric.

This problem is solved by a spacer textile according to the main claim. Advantageous uses of the spacer textile according to the invention are the subject of the independent claims. Advantageous developments of the spacer fabric and its uses are the subject of the dependent claims.

Accordingly, the invention relates to a spacer fabric comprising a top fabric, a bottom fabric and a spacer layer, wherein the top fabric and the bottom fabric are joined together by the spacer layer so as to be spaced from each other, wherein the top fabric, bottom fabric and spacer layer are formed by fibers Fibers are monofilaments of inert fluorocarbons.

The invention further relates to the use of a spacer textile according to the invention for the at least partial sheathing of an electrode in a plating tank, the spacer textile being permeable in such a way that it does not impair electrolytic processes.

The invention further relates to the use of a spacer textile according to the invention as a lining of work, storage and / or transport surfaces.

The invention further relates to the use of a spacer textile according to the invention as a filter or carrier material in chemically aggressive media.

First, some terms used in connection with the invention will be explained:
A "spacer fabric" is a three-dimensional textile material of individual fibers comprising a top and a bottom fabric which are spaced apart but connected by a spacer layer. In the case of spacer textiles in the context of this invention, it may be, in particular, spacer knitted fabrics, spacer knits, or the like. act.

A "monofilament" is a fiber comprising only a single long chain of molecules. Monofilaments according to the invention can be produced, for example, by extruding fluorocarbons.

"Inert" refers to those materials and substances that do not or only to a negligible extent react with potential reactants.

"Fluorocarbons" refers to a chemical group of substances. The substances of this group contain - though not necessarily exclusively - perfluorinated carbon chains.

A "permeability such that electrolytic processes are enabled" in the context of the invention means that the spacer is permeable to at least one electrolytic liquid.

By using monofilaments of inert fluorocarbons as the material for the spacer textile according to the invention, the spacer textile is chemically durable. Even if it comes into contact with aggressive chemical materials, it will not be significantly attacked or damaged by these materials. Due to the chemical durability, wear of the spacer fabric according to the invention is to be expected only due to mechanical stress.

It is preferred if the fibers are polytetrafluoroethylene (PTFE). A spacer textile made of this material shows not only a good chemical durability but also good mechanical damping properties.

It is preferred if the fibers of the spacer fabric are round. As a result, uniformity of the spacer fabric is achieved.

CL: Gauge Length, Einspannlänge des Garns beim ZugversuchIt is particularly preferred when the fibers of 400 denier ePTFE round fiber, more preferably from GORE ^® RASTEX ^® ePTFE is part.no. 10642635 are. These fibers are characterized by the properties exemplified below: Material: 100% extruded polytetrafluoroethylene with nominal yarn count 400 denier

CL: Gauge Length, gripping length of the yarn during the tensile test

The preferred material is an extruded fiber that is not matrix spun. So it is a so-called. "Solid wire", wherein the fiber is preferably particularly round and thick.

The spacer textile according to the invention can be made in any geometric shapes, wherein it is preferably a spacer knitted fabric or a spacer knitted fabric. When the spacer fabric is a spacer fabric, it is preferable that the fibers of the spacer layer are knitted in a cross shape. The fibers then form an X-structure. It is further preferred if the fibers of the spacer layer are additionally knitted in a vertical form, in a so-called I-structure. The X-structure gives the fabric stability between the upper and lower fabric. The I-structure is advantageous for the pressure stability.

The spacer textile according to the invention can be used advantageously as a spacer for use in galvanization tanks.

In electroplating, components are coated with metallic compounds by electrochemical deposition. To be electroplated components made of electrically conductive material or with electrically conductive coating are connected to a pole of a power source and immersed in a galvanizing tank. The plating tank is filled with an electrolytic liquid, in which a bath electrode is immersed, which is connected to the other pole of the power source. Due to the flow through the plating tank, metal from the electrolytic liquid deposits evenly and on all sides on the component to be coated.

When plating, it must be prevented that touch the bath electrode and the component and a contact arc occurs. In the case of a corresponding contact, a very high short-circuit current flows, which irreversibly damages both the bath electrode and the component.

By the inventive use of the spacer fabric according to the invention as a spacer as at least partially sheathing an electrode in a galvanizing tank is an effective Protection against both contact arcs and impact damage is achieved without significantly affecting the electrolytic process of galvanization. The spacer fabric according to the invention is permeable to the electrolytic liquid and, since it is inert, does not react with the ions contained in the electrolyte. It is thus chemically durable. As a result, the spacer textile can practically only wear due to mechanical stress. The maintenance intensity compared to a spacer made of chemically unstable material is significantly reduced.

Furthermore, spacer textiles are characterized by the fact that they can absorb shocks due to their elastic deformability. The risk of component damage by z. B. Anchors, when the components are immersed in the plating tank, is thus reduced. Due to the elastic damping by the spacer textile so a mechanical protection is achieved.

The spacer textile can also be made in any geometric shapes, so that a bath electrode can be completely surrounded by the spacer fabric. The spacer may preferably be in the form of a jacket corresponding to the bath electrode. Since there is then no vacant space at which the bath electrode and the component to be electroplated could touch, an effective protection against contact arcs, which lead to irreversible damage to the bath electrode and / or the component, is ensured. For a cathodic electroplating process, the anode is preferably sheathed, and for an anodic electroplating process, preferably the cathode is sheathed.

The spacer fabric according to the invention is also suitable as a lining of work, storage and / or transport surfaces. In this case, the spacer textile is designed as a mat on a corresponding surface, so as to form a base for components. The surface thus lined is characterized by chemical resistance and damping effect. Thus, for example, components removed from a galvanizing tank can readily be deposited on a surface lined with the spacer textile according to the invention, without any residues of the electrolytic liquid dripping from the component from the galvanizing tank attacking the surface. By the damping effect of the spacer fabric according to the invention also possibly occurring shocks during transport on a surface, for example. A trolley, kept away from resting components or at least reduced so much that no damage to the component occurs. Damage during the placement of the components on corresponding surfaces can also be avoided due to the mechanical damping effect.

It is possible to provide the side of the spacer textile according to the invention, which forms the surface of a lined work, storage and / or transport surface, with a structure. In addition to the described damping effect so protection against the unintentional slippage of components on the surface is achieved.

The spacer textile according to the invention can also be used as a filter or carrier material in chemically aggressive media. Due to its inert properties, the spacer textile is not attacked by the chemically aggressive medium. The chemically aggressive medium may be, for example, seawater.

The use of the spacer textile according to the invention as a sheath of an electrode in a galvanizing tank, as a lining for work, storage and / or transport surfaces or as a filter or carrier material may possibly be a separate inventive use. In a corresponding use, it may be irrelevant whether the fibers of the spacer textile are inert and / or fluorocarbons.

The invention will now be described by way of example with reference to the accompanying drawings. Show it:

1 a section through an inventive spacer fabric; and

2 a plating tank with a spacer fabric according to the invention as a spacer;

3 the spacer off 2 ;

4 a trolley with a spacer fabric according to the invention as a display of the transport surface.

In 1 is a cross section through an inventive spacer fabric 1 shown.

The spacer textile 1 includes a top textile 2 and a subtextile 3 which are connected by support threads 4 . 4 ' as a spacer layer 5 are connected. upper textile 2 , Subtextile 3 and spacer layer 5 are formed by fibers. These fibers are monofilaments of inert fluorocarbons, in the illustrated embodiment of polytetrafluoroethylene monofilaments (PTFE monofilaments).

The fibers are thick, round fibers. The thickness achieves a good damping effect, while the roundness of the fibers produces a uniform spacer textile 1 entails. The fibers can preferably 400 denier ePTFE round fiber or GORE ^{® ®} RASTEX Part.-Nr. 10642635 can be used.

In the illustrated embodiment, the spacer fabric 1 knitted, with the support threads 4 . 4 ' the spacer layer 5 both in the shape of a cross (X-structure, see supporting threads 4 ) as well as in vertical form (I-structure, see supporting threads 4 ' ) are worked. The X-structure gives the spacer textile 1 Stability between the 2 and subtextile 3 , The I-structure is advantageous for the pressure stability.

In 2 is one with an electrolytic liquid 12 filled plating tank 11 shown. In the liquid 12 are a bath electrode 13 and a component to be coated 14 immersed, both with a power source 15 are connected. The bath electrode 13 is with the positive pole of the power source 15 connected while the component to be coated 14 with the negative pole of the power source 15 connected is. The bath electrode 13 thus forms the anode, the component to be coated 14 the cathode for the galvanization process.

Due to the current coming from the power source 15 over the bath electrode 13 , the electrolytic bath 12 , the component 14 flows back to the power source, store metal ions from the electrolytic solution 12 evenly and on all sides on the component 14 from. The component 14 receives thereby a coating 16 from the metal of the electrolytic solution.

In the galvanization, especially in the process of immersing or removing the component to be coated 14 in or out of the plating tank 11 , there is a risk that bad electrode 13 and component 14 touch or at least come so close that a contact arc is formed, which is the bath electrode 13 and / or the component 14 irreversibly damaged.

To make a corresponding contact between bath electrode 13 and component 14 To avoid, according to the invention is a spacer 20 provided, as he also in 3 is shown in more detail.

The spacer 20 includes a spacer textile 1 and is as a sheath for the bath electrode 13 educated. In the illustrated embodiment, the bath electrode 13 cylindrical. The spacer textile 1 is therefore tubular shaped, with one end of the tube is closed. The secure fit of the spacer 20 at the bath electrode 13 can be achieved by an appropriate fit. But it is also possible that special fasteners (not shown) are provided for this purpose. In a different shape of the bath electrode 13 can the spacer 20 be adapted in its form accordingly.

The spacer textile 1 of the spacer 20 is made of PTFE monofilaments. These are inert fibers with the electrolytic liquid 12 or the metal ions in the plating tank 11 not react. The spacer textile 1 is therefore chemically durable. At the same time, however, it is also permeable to the electrolytic liquid 12 and the said metal ions so that the plating process is not impaired.

Due to the spacer 20 is excluded that bath electrode 13 and component 14 Touch directly and a contact arc could occur, affecting the bath electrode 13 and / or the component 14 would irreversibly damage.

At the same time is the spacer 20 due to the spacer textile 1 elastically deformable and can thus absorb shock elastically. This can ensure that when a component to be coated 14 at the with the spacer 20 coated bath electrode 13 abuts, the shock is cushioned so that the component 14 no damage occurs.

The spacer according to the invention 20 So it is characterized by the fact that it, without affecting the electroplating process, chemical resistant protection against contact arcs and damage to components 14 offers by shocks. Due to the chemical durability is a regular replacement of the spacer 20 not mandatory.

In 4 is another example of use for the spacer fabric according to the invention 1 shown. The spacer textile 1 , according to 1 is constructed, is doing as a lining of a transport surface 31 used. The transport area 31 is located on the top of a trolley 30 ,

The spacer textile 1 is as a mat on the transport surface 31 designed and thus forms a support for components (not shown), which on the transport surface 31 filed and then with the car 30 can be transported.

The so-lined transport area 31 is characterized by chemical resistance and damping effect. For example, components removed from a galvanizing tank (cf. 2 ) readily on one with the spacer fabric according to the invention 1 lined transport surface 31 can be stored without any possibly dripping from the component residues of the electrolytic liquid from the galvanizing the transport surface 31 would attack. By the damping effect of the spacer fabric according to the invention 1 If necessary, occurring impacts of overlying components during transport on the transport surface 31 kept away or at least reduced so much that no damage to the components occurs. Also damage during the placement of the components on the transport surface 31 can be avoided by the mechanical damping effect.

The side of the spacer textile 1 showing the surface of the transport surface 31 is profiled (indicated by 32 ), which provides a protective effect against the unintentional slippage of components on the transport surface.

Claims (13)

Spacer textile ( 1 ) comprising an upper textile ( 2 ), a subtextile ( 3 ) and a spacer layer ( 5 ), the upper textile ( 2 ) and the subtextile ( 3 ) through the spacer layer ( 5 ) are interconnected such that they are spaced apart from each other, and wherein upper textile ( 2 ), Subtextile ( 3 ) and spacer layer ( 5 ) are formed by fibers, characterized in that the fibers are monofilaments of inert fluorocarbons. Spacer textile according to claim 1, characterized in that the fibers are made of polytetrafluoroethylene (PTFE). Spacer textile according to one of the preceding claims, characterized in that the fibers are round. Spacer textile according to one of the preceding claims, characterized in that the fibers of 400 Denier Round ePTFE Fiber, preferably from GORE ^® RASTEX ^® Part. 10642635, are. Spacer textile according to one of the preceding claims, characterized in that the fibers are knitted in a cross shape and / or in a vertical form (X structure, I structure, X and I structure). Using a spacer textile ( 1 ) according to one of claims 1 to 5 for the at least partial encasing of an electrode ( 13 . 14 ) in a plating tank ( 11 ), wherein the spacer textile ( 1 ) is so permeable that it allows electrolytic processes. Use according to claim 6, characterized in that in a cathodic electroplating process, the anode, in an anodic electroplating process, the cathode is sheathed. Use according to claim 7, characterized in that the spacer textile ( 1 ) in the form of a bath electrode ( 13 ) sheath ( 20 ) is trained. Using a spacer textile ( 1 ) according to one of claims 1 to 5 as a lining of work, storage and / or transport surfaces ( 31 ). Use according to claim 9, characterized in that the spacer textile ( 1 ) a profiled surface ( 32 ) having. Using a spacer textile ( 1 ) according to one of claims 1 to 5 as a filter material in chemically aggressive media. Using a spacer textile ( 1 ) according to one of claims 1 to 5 as a carrier material in chemically aggressive media. Use according to one of claims 11 or 12, characterized in that the chemically aggressive medium is seawater.

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