JP7240709B2 - Electromagnetic shielding fastener structure - Google Patents

Description

The present invention relates to a fastener structure having electromagnetic wave shielding performance.

Research and development that uses electromagnetic shielding boxes to prevent the effects of electromagnetic waves when carrying electronic devices and medical equipment, uses electromagnetic shielding tents for simple radio wave measurements, and partitions to prevent the effects of electromagnetic waves. A site may be set up.
In such cases, conductive boxes, containers, tents, partition cloths, etc. that have a shielding effect against electromagnetic waves are used. A slide fastener may be used.
However, the slide fastener has a structure in which a plurality of elements are mutually arranged at the ends of a pair of left and right tapes, and a slider is used to open and close the engagement of the coupling tooth heads of the left and right elements. There was a problem that electromagnetic waves leaked from the meshing part.

For example, Patent Literature 1 discloses a magnetic shielding device in which two fasteners are provided in parallel and at displaced positions.
However, in a structure in which two fasteners are simply superimposed, even if the opening and closing lines of the element are shifted to the left and right, electromagnetic waves leak obliquely through the upper and lower opening and closing lines, so the shielding effect is insufficient. rice field.
Patent Literature 2 discloses a technique for forming a shielding tube by superimposing hook-and-loop fasteners, but it is difficult to open and close the overlapped hook-and-loop fasteners.

Japanese Utility Model Laid-Open No. 1-161399 Japanese Utility Model Laid-Open No. 7-3194

SUMMARY OF THE INVENTION It is an object of the present invention to provide a fastener structure that is effective in improving shielding performance against electromagnetic waves.

An electromagnetic wave shielding fastener structure according to the present invention is provided with a first slide fastener and a second slide fastener, wherein the first opening and closing line of the first slide fastener and the second opening and closing line of the second slide fastener are connected. The first slide fastener and the second slide fastener are arranged parallel to each other and have a band-shaped electromagnetic wave shielding piece between the first slide fastener and the second slide fastener.
Here, the structure of the slide fastener is not limited as long as it uses a slider for opening and closing.

Here, the band-shaped electromagnetic wave shielding piece is composed of a pair of right and left first electromagnetic wave shielding pieces and a second electromagnetic wave shielding piece, and the first and second electromagnetic wave shielding pieces partially overlap each other when the slide fastener is closed. is more preferable.
In this case, the first electromagnetic wave shielding piece is provided on one side of the pair of left and right tapes, and the second electromagnetic wave shielding piece is provided on the other tape side.

In the fastener structure according to the present invention, the two slide fasteners are arranged in parallel and doubly displaced, and the electromagnetic wave shielding piece is provided between them, so that the electromagnetic wave shielding effect is excellent.
In addition, by adopting a slide fastener that can be opened and closed with a slider as a fastener, the opening and closing operation is easier than in the conventional overlapping structure of hook-and-loop fasteners.

1 shows Example 1 of the structure of an electromagnetic wave shielding fastener according to the present invention. (a) to (c) show the order in which the fasteners are attached. 1 shows an example of a fastener part structure. Example 2 of the present invention is shown. The assembly order of Example 2 is shown in (a) to (d). 4 shows an example of the configuration of parts according to the second embodiment. Shows how to test the shield. Shield measurement results are shown.

An example of the structure of the fastener according to the present invention will be described below with reference to the drawings.

Example 1 is shown in FIGS.
The electromagnetic wave shielding fastener according to the present invention, as shown in FIG. It is parallel to the line 11, and is double arranged with its position shifted to the left and right.
A belt-like electromagnetic wave shielding piece 30 is arranged between the first slide fastener 10 and the second slide fastener 20 so as to overlap the first opening/closing line 11 and the second opening/closing line 21 .

Examples of the configuration are shown in FIGS.
In the first slide fastener 10, a plurality of elements 12a attached to the end of the first tape L12 and a plurality of elements 13a attached to the end of the first tape R13 are engaged with each other by sliding the first slider 14. or open.
A slide fastener is also called a line fastener.
This center line is expressed as a first opening/closing line 11 .
The ends of the band-like first electromagnetic shielding pieces 30 are stitched to either one of the left and right first tapes L, R. As shown in FIG.
Next, the second slide fastener 20 is stitched so as to cover the first electromagnetic wave shielding piece 30 from above.
The second slide fastener 20 is similar to the first slide fastener 10, and includes a plurality of elements 22a attached to the end of the second tape L22 and an element 23a attached to the end of the second tape R23. It is opened and closed by a slider 24 , and this opening and closing line is expressed as a second opening and closing line 21 .
The first opening/closing line 11 and the second opening/closing line 21 are parallel to each other, and their positions are shifted to the left and right.
In FIG. 1, a part of the first electromagnetic wave shielding piece 30 is cut away so that the first slide fastener 10 can be seen, and a part of the second tape R23 of the second slide fastener 20 is cut out so that the underside thereof can be seen. Described.

In the present invention, it is preferable that the left and right tapes, elements, sliders, etc. constituting the first slide fastener 10 and the second slide fastener 20 are conductive.
Conductive fibers are used for the left and right tapes, and the first electromagnetic wave shielding piece 30 is also preferably made of conductive fibers.

Example 2 is shown in FIGS.
The description will focus on the differences from the first embodiment.
In Example 1, a strip-shaped first electromagnetic wave shielding piece 30 was used, whereas in Example 2, as shown in FIG. By stitching the right end of the shielding piece 40 in FIG. 5 and stitching the left end of the first electromagnetic shielding piece 30 to the left side of the first tape L12, when the fastener is closed, the first electromagnetic shielding The piece 30 and the second electromagnetic wave shielding piece 40 were arranged so as to partially overlap.

The shielding effects of the slide fastener structure according to the present invention and the conventional double fastener structure were compared and measured, which will be described below.
As shown in FIG. 7(a), the transmitter is placed in a bag with an opening formed by a slide fastener, and the slide fastener is closed. It was measured.
The measurement results are shown in the table of FIG.
It was measured (unit: db) how much the strength of the electromagnetic wave generated from the transmitter was lowered to the outside.
The product of the present invention corresponds to Example 2, and the conventional product is the case of parallel and offset double fasteners.
At the measurement frequency of 2.4 GHz, the conventional product showed -72 db, whereas the present invention product had a large shielding effect, and the measurement was impossible (impossible to measure).
At a measurement frequency of 5 GHz, the conventional product exhibited -70 db, while the present invention exhibited a larger shielding effect of -92 db.
As a result, it was confirmed that the product of the present invention has a higher shielding effect than the conventional product.

The purpose of the first electromagnetic wave shielding piece 30 and the second electromagnetic wave shielding piece 40 used in the present invention is to block the space between the double slide fasteners arranged at different positions.
Therefore, if the first and second electromagnetic wave shielding pieces have a greater thickness, the shielding effect will increase accordingly.
For example, the shielding piece may be doubled or bag-like, and an elastic material such as a sponge sheet may be inserted therein.
Also, a sponge sheet or the like may be adhered to the shielding piece.

10 First slide fastener 11 First opening/closing line 12 First tape L
12a element 13 first tape R
13a element 14 first slider 20 second slide fastener 21 second opening/closing line 22 second tape L
22a element 23 second tape R
23a element 24 second slider 30 first electromagnetic shielding piece 40 second electromagnetic shielding piece

Claims (1)

Doublely comprising a first slide fastener and a second slide fastener,
a first opening/closing line of the first slide fastener and a second opening/closing line of the second slide fastener are arranged in parallel and laterally shifted;
In the first slide fastener, a plurality of elements attached to respective ends of a pair of left and right first tapes L and R are engaged or released with each other,
In the second slide fastener, a plurality of elements attached to respective ends of a pair of left and right second tapes L and R are engaged with or released from each other,
The right end of the strip-shaped second electromagnetic wave shielding piece made of conductive fibers is sewn to the first tape R side,
A strip-shaped first electromagnetic wave shielding piece made of conductive fibers has its left end sewn to the first tape L side, and the first electromagnetic wave shielding piece overlaps the second electromagnetic wave shielding piece. An electromagnetic wave shielding fastener structure characterized in that the second slide fastener overlaps with the second slide fastener and has a high shielding effect against electromagnetic waves .

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