CA2374177A1 - Splicing process of three-dimensional webs having electromagnetic properties - Google Patents

Abstract

The procedure consists of separating the layers (3, 4; 5, 6) of the edges of lengths (1, 2) of a three-dimensional fabric to be joined together, interleaving the separated layers and fastening them together e.g. by single or multiple seams (7) or sliding clasp fasteners (8).

Description

i

2 METHOD FOR CONNECTING THREE-DIMENSIONAL FABRIC SHEETS
GIVING ELECTROMAGNETIC PROPERTIES
The technical sector of the present invention is that fabrics and more particularly methods of connection of two strips of tissue.
To connect two strips of fabric you can use various means such as sewing the two edges overlap, edge to edge stitching, application a connecting strip applied to the two strips arranged side by side, etc ...
When the fabric has certain properties, the mode connection becomes important ~ because it can reduce see cancel the intrinsic properties of this fabric. So, in the case of a fabric having properties of electromagnetic protection the electrical continuity of the fabric is not provided by conventional bonds mentioned above. Indeed, this kind of fabric presents the characteristic of having a structure of three dimensions and the seam stops the continuity electrical and therefore the loss of protective properties electromagnetic.
The object of the present invention is to provide a method of connecting two strips of fabric ensuring the electrical continuity and attenuation electromagnetic.
The subject of the invention is therefore a method of connection of two strips of multi-layer fabric to three dimensions, consisting of at least two layers, for ensure electrical continuity and attenuation electromagnetic, characterized in that in a first step during weaving at least one veil is formed two-dimensional strip of fabric over a sufficient width in the vicinity of a free edge, then in a second step we insert the free sails of two adjacent strips of tissue i the between them and in a third step we apply a means of connection between at least two sails superimposed so to form a closed protective structure electromagnetic.
According to a characteristic of the invention, the means of binding is a single or multiple seam connecting between them the sails of the two adjacent strips.
According to another characteristic of the invention, the connection means is applied between the two sails of two les.
According to yet another characteristic of the invention, the connecting means is constituted by a closure slide interposed between the sails of the two strips adjacent.
According to yet another characteristic of the invention, each strip can present at the free edge three two-dimensional free sails of fabric inserted between them.
According to yet another characteristic, each strip presents two free sails interposed between them, one of which two-dimensional and the other three-dimensional.
According to yet another characteristic, each strip presents five two-dimensional sails interspersed between them.
The invention also relates to the protective fabric.
electromagnetic of great length obtained according to the process according to the invention.
The invention also relates to the application of the fabric.
obtained with the realization of additional protection means against electromagnetic radiation.
A very first advantage of the process according to the invention lies in the possibility of fabricating any length while retaining its properties electromagnetic attenuation.
Another advantage of the invention lies in the preservation of the resistance properties of the fabric.
Yet another advantage is the simplicity of connection of the different strips of tissue using the existing weaving machines, therefore without obligation to modify these machines.
Yet another advantage is the flexibility of the bond thus produced, close to that of the tissues unit.
Other features, details and benefits of

3 the invention will emerge more clearly from the description given below for information only in relation to drawings in which.
- Figure 1 illustrates the free edge of two strips of fabric after weaving, - Figure 2 illustrates the connection of the two strips according to figure 1, - Figures 3 to 5 illustrate the free edge of two other tissue.
The fabric which we want to connect several strips together so as to obtain a large width is manufactured on existing machines. The need to connect these strips is essential as soon as one wishes to cover large surfaces. The length of the strip can be adjusted according to the asks but it is not the same for its width since it depends on the weaving machine used.
The binding mode is important when the fabric has electromagnetic properties since these these must be kept for a fabric whatever its dimensions. Indeed, the fabric made up of several the strips assembled together can constitute a structure open allowing the magnetic field to interfere with the devices that you want to protect, if the connection between the strips do not provide electrical continuity as well as electromagnetic attenuation. Of course the fabrics according to the invention are fabrics having three dimensions i.e. the weaving is carried out according to the three directions of space to confer the electromagnetic properties as explained by the applicant in a previous patent application.
This is why, according to the invention, a weaving is carried out.
of each strip 1 or 2 in three dimensions and we form as shown in Figure 1 two sails. Strip 1 has a first veil 3 in two dimensions and a second veil 4 in three dimensions. Likewise, strip 2 includes along its free edge a veil 5 in two dimensions and a veil 6 in three dimensions. The fabric shown in this figure has three layers woven together into a structure

4 three-dimensional. This weaving has no difficulty because it suffices to stop 3D weaving on a sufficient width in the vicinity of the free edge for a layer while continuing for the other two layers.
For the record, it will be noted that 3D weaving consists of insert in the three directions of space during weaving a metal wire in these three directions and, without any further intervention.
Of course, the fabric we want to increase the width can be presented in two layers, three layers and more according to the technical requirements that we wants to respect.
To avoid electrical leaks, insert them according to the invention the sails of each strip and on the Figure 2 we see that we have engaged the veil 6 of the strip 2 between sails 3 and 4 of lé 1, veil 5 of lé 2 coming apply against the veil 4. These veils are maintained together using any means. A first means consists to make a single or multiple seam across the width (d) connecting the two strips 1 and 2. Another means would consist of interposing between the web 3 and the web 2 a removable connection means 7 of the zipper type and a means of the same type 8 between the free veil 5 and the web 1. This means 7 or 8 must of course ensure continuity the fabric obtained according to the invention. To this end, this closure must incorporate a conductive material of electricity. The electromagnetic attenuation is therefore obtained by making baffles between each layer of tissue so bonded, allowing the electromagnetic wave to spread unevenly in the fabric to increase the attenuation accordingly.
In Figure 3, we have shown the two strips 1 and 2 having at their free edge three sails for two dimensions. Strip 1 is extended by sails 9, 10 and 11 and strip 2 by sails 12, 13 and 14. To constitute the 3D structure, for example, the veil 14 is inserted between the sails 10 and 11 and the veil 9 between the sails 12 and 13, then we sew with a thread or not of these six layers between them.
In Figure 4, there is shown a strip 15 to three dimensions consisting of four layers of fabric, the free edge has two sails 16 and 17. Each of these

5 sails consists of two layers following a structure three-dimensional. To join two strips of the same configuration, we interpose the sails together as explained previously and we realize either by imprisoning the four sails by a seam either interposing a zipper between the external sails and the web corresponding.
In Figure 5, there is shown a strip 18 to three dimensions, consisting of five layers of fabric. At the level from the free edge of this strip the five layers are woven separately to form five sails 19-23 in pairs dimensions. To join two adjacent strips we insert as previously explained the respective sails between them, then we make for example a seam between the ten sails thus assembled.
A large fabric obtained according to the present invention allows quite adequate use for protection of all types of structures emitting electromagnetic radiation or subject to the influence of electromagnetic radiation. The fabric makes it possible to attenuate this radiation whatever its direction. AT
title of illustration, we can cover a technical shelter classic mobile using an envelope conforming to the shape outside of the shelter. We can also conversely line the interior walls of the technical shelter at using the fabric according to the invention. The fabric according the invention can also be simply combined with a frame by joining several strips together and protecting so quickly the materials arranged in said frame. The fabric can be used simply as a electromagnetic protection in a tent fabric.

Claims (10)

1. Method for connecting two strips (1, 2) of tissue three-dimensional multilayer, consisting of at least two layers, to ensure electrical continuity and electromagnetic attenuation, characterized in that in a first step during weaving we form at least one two-dimensional veil (3, 5) of a web of fabric on a sufficient width in the vicinity of a free edge, then in a second step we insert the free sails (3, 4; 5, 6) of two adjacent strips of tissue between them and in a third step we apply a connecting means (7, 8) between at least two superimposed sails (3, 6) so as to constitute a closed protective structure electromagnetic. 2. Connection method according to claim 1, characterized in that the connecting means is a seam single or multiple (7) connecting the sails of two adjacent strips. 3. Connection method according to claim 1, characterized in that the connecting means is applied between the two sails (3, 6) of the two les. 4. Connection method according to claim 3, characterized in that the connecting means consists of a zipper (8) interposed between the sails (3.6; 5.4) of the two adjacent strips. 5. Connection method according to one of previous claims, characterized in that each strip (1, 2) has three free sails at the free edge (9,10,11; 12,13,14) two-dimensional interleaved fabric between them. 6. Connection method according to any one of Claims 1 to 4, characterized in that each strip (1, 2) has two free sails (3,4; 5,6) inserted between one of which (3; 5) two-dimensional and the other (4; 6) three-dimensional. 7. Connection method according to one of Claims 1 to 4, characterized in that each strip (18) presents five interwoven two-dimensional sails (19-23) between them. 8. Connection method according to one of Claims 1 to 4, characterized in that each strip (15) presents two free sails (16, 17) each in three dimensions. 9. Large electromagnetic protective fabric length obtained according to the process according to one any of the preceding claims. 10. Application of the fabric obtained according to any one from claims 1 to 8 to the realization of means of additional radiation protection electromagnetic in a mobile technical shelter or attempted.