JPH0493242A - Antistatic interior sheeting - Google Patents

Abstract

PURPOSE:To prevent electromagnetic wave interference from occurring by a method wherein synthetic resin surface layer is backed by laminate, which is made of fibrous base material and non-woven fabric containing metal fiber or fiber plated with metal and the non-woven fabric surface of which is formed to the adhesive surface side of ground. CONSTITUTION:Synthetic resin surface layer 1 is laminatingly backed by fibrous base material 3 and non-woven fabric 5 containing metal fiber or fiber plated with metal and the non-woven fabric surface is formed to the adhesive surface side of ground. The fibrous base material 3 is preferably woven or non-woven fabric made of glass fiber having the basis weight of 20-100g/m<2> or synthetic fiber such as polypropylene, polyester or the like. The non-woven fabric 5 is preferably one, which contains metal fiber or fiber plated with metal and has the basis weight of 10-500g/m<2>. Preferable metal, of which the metal fiber is made and with which the fiber is plated, is silver, nickel or stainless steel. The preferable length of said fiber is 0.5-50cm. The fiber to be plated with the metal is preferably polyolefin-based fiber, acrylic fiber, glass fiber or the like. The interior material 7 obtained as mentioned above is sheet-like material, resulting in effectively preventing electromagnetic wave from leaking.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention provides an antistatic interior material that has electromagnetic shielding performance and is easy to conduct conduction treatment.

(Conventional technologies and their problems) Due to the recent rapid progress of various electronics industries,
There is a strong need for countermeasures against interference caused by electromagnetic waves in various wireless devices and electronic devices.

However, at present, there has been considerable progress in providing electromagnetic shielding performance to the housings of various electronic devices due to industry voluntary regulations.

However, in devices such as wireless devices that transmit and receive electromagnetic waves, it is difficult to shield the influence of unnecessary electromagnetic waves that exist near the device and prevent crosstalk between devices.
As a countermeasure for this! ! One idea was to provide electromagnetic shielding between the leaps and floors.

As a method to do this, surrounding the sublayer with electromagnetic shielding materials such as metal plates, foils, woven or non-woven fabrics containing metal fibers or metal-plated fibers has been difficult, and The design was unsatisfactory for use as a finishing material.

Furthermore, the above-mentioned electromagnetic shielding material could only provide insufficient performance even when electromagnetic shielding was applied to an existing building after construction.

(Means for Solving the Problems) The present invention provides an electromagnetic shielding interior material that solves the above-mentioned drawbacks. It is characterized in that it is lined with a laminate of a nonwoven fabric containing a 11i fiber base material and metal fibers or metal plated fibers, and a nonwoven fabric iris containing metal fibers or metal plated fibers is formed on the adhesive side of the base. Its gist is antistatic sheet interior material.

The following will explain based on screen shots.

Figure 1 is a cross section of the seat interior material of the present invention! It is.

1 is a synthetic resin surface layer, 3 is a fiber base material of synthetic fiber or glass fiber nonwoven fabric, + is a soft synthetic resin layer, 5 is a nonwoven fabric containing metal I fiber or metal plating mi 0 In the present invention, this metal fiber or Paper is also included in non-wafer fabrics containing metal-plated fibers.

1 is a synthetic resin surface layer preferably made of a thermoplastic resin such as PvC, and includes, for example, a sheet obtained by integrating pellet-like granules 2 under heat and pressure, a penetrating pattern made of the same colored granules,
Other colored sheets, marble pattern sheets, printed sheets, C
Known sheets such as sheets with a printed layer provided on the foamed layer of F-receipt can be used, and the desired design can be obtained.

The fiber base material 3 is preferably 20-100 g/m2 of glass fiber or a synthetic material such as polypropylene, polyester, etc.
It is a woven or non-woven fabric made of fibers.

The nonwoven fabric 5 is preferably a nonwoven fabric containing 10-500 g/m<2> (7) of metal JAL fibers or metal plated fibers.

The metal plated on metal mi or *i is preferably silver, nickel, or stainless steel, and the length of these metal fibers or metal plating wAtli is preferably 0.5 to 504.

The ams to be plated include polyolefin,
Acrylic, nylon, polyester, vinylon, glass fiber, etc. are suitable, and the fiber base material 2 and metal!
Non-woven fabrics containing li fibers or metal-plated fibers
17f55 may be laminated by thermocompression bonding, but by interposing a soft synthetic resin layer 4 such as PvC paste, acrylic resin, polyolefin, other hot melt resin, or SBR resin, the entire backing material 6 is made of 0. 3-2.0
The thickness may be adjusted and laminated so that the thickness becomes m.

In this way, the interior material 7 of the present invention is obtained, and since the interior material 7 is sheet-like, leakage of electromagnetic waves can be effectively prevented.

In the present invention, metal fiber or metal plating that substantially improves electromagnetic shielding performance! Non-woven fabric 5 containing l.
Even if it is not strong enough to be used for continuous processing of metal bodies, it is strengthened by laminating it with the fiber base material 3, so it can be laminated with the synthetic resin surface layer using conventional interior material processing equipment. can do.

Furthermore, in the present invention, the nonwoven fabric 5 containing metal fibers or metal plated fibers is located on the base bonding surface.

By partially laying a conductive material 8 such as a metal sheet on the base and then grounding the interior material by a method such as applying the sheet interior material 7 of the present invention, electrical continuity of the interior material can be established on the base side. It can be easily carried out, and electromagnetic shielding construction can be easily and reliably carried out.

(Example) Example 1 A non-woven fabric made of 55g/m2 silver-plated 5cII length acrylic fiber and polyester 11 navy blue and 55g/m2
A backing material having a total pressure of 0.7- was obtained by laminating glass film No. 2 i*7f5 with a PVC paste resin interposed therebetween.

Approximately 2- in diameter via PvC paste adhesive onto the backing material.
〇 After applying a synthetic resin surface layer in which PvC granules are formed into a pattern with a thickness of about 3 mm, heat and pressure is applied to a pressure of 0.3 m, and a pattern is formed by brigel transfer with a heater, Apply 0.3- PVC paste for transparent surface layer,
A synthetic resin surface layer having a total thickness of 1.0 - was formed by heating and foaming to produce an electromagnetic shielding flooring material.

Example 3 80 g/m' natural bulb cellulose based paper with metal attached and 55 g/m2 glass non-woven fabric as PV
A backing material having a total pressure of 0°7- was obtained by laminating with C paste resin interposed therebetween.

On the above-mentioned backing material, a patterned sheet with a thickness of about 3 cm obtained by hot-pressing molding of PVC granules with a diameter of about 2 mm was placed on the PvC lining material.
An electromagnetic shielding flooring material was manufactured by laminating them under heat and pressure using a paste adhesive.

Example 4 A 55 g/m2 glass non-woven fabric was laminated on a 60 g/m2 synthetic wA Usui non-woven fabric containing 8 μm long stainless steel woven fabric via a PVC paste resin to form a backing material with a raw pressure of 0.7-. I got it.

Seal F! ! Got paper.

Table 1 shows the results of the electromagnetic shielding effects of the interior materials of Examples 1 to 5.

After placing the patterned surface material having the thickness shown in Table 1, the material was laminated by heating and pressing to produce an electromagnetic shielding floor material.

Example 5 55 g/m' non-woven fabric consisting of 50 lengths of silver-plated acrylic fibers and polyester mil fibers and 30 g/m'
The glass foil cloth of No. 2 was laminated with PVC paste resin interposed therebetween to obtain a backing material with a total pressure of 0.5.

Expandable PV through PVC paste colored layer on backing material
C paste is printed in a pattern using a rotary screen, heated and foamed to form a surface layer, and the electromagnetic wave unit is decibel (d
B).

Both devices exhibited remarkable electromagnetic shielding effects of 40 dB or more in the range of 10 KHz to 1000 MHz.

(Effects of the Invention) - According to the present invention, the entire floor and wall surfaces were subjected to tFji wave shielding treatment, so that no electromagnetic wave interference occurred indoors.

■Since a non-ferrous fabric containing metal fibers or metal-plated fibers is formed on the adhesive surface of the interior material base, conductivity can be achieved by applying a grounding method in combination with a metal conductive material on the base. The effect was huge.

Since the surface layer and the conductive backing material were integrated, electromagnetic shielding was obtained without impairing the design.

■In addition to effectively obtaining electromagnetic shielding performance, an interior material with good dimensional and shape stability without warping or expansion/contraction was obtained.

4. I! Brief Description of Page 1 The first section is a sectional view of the interior material of the present invention, 1 is a surface layer, 3 is a fiber base material, and 5 is a nonwoven fabric containing metal fibers or metal plated fibers.

that's all

Claims (1)

[Claims] 1. A laminate of a fiber base material and a nonwoven fabric containing metal fibers or metal plated fibers is lined under the synthetic resin surface layer, and a nonwoven fabric surface containing metal fibers or metal plated fibers is formed on the base adhesive side. An antistatic sheet interior material characterized by: