JPH05235580A - Electromagnetic shielding panel and room - Google Patents

Abstract

PURPOSE:To reduce the man-hour for assembling by making it possible to join panels only from the interior side. CONSTITUTION:A double shielding type electromagnetic wave shielding panel provided with a conductive material on at least both sides of an insulating plate. A plurality of recesses 15 which will house the heads 91 of screws 92 for joining panels, are formed on one side of the plate. Further, a plurality of through holes 17 through which the shanks 92 of the screws 90 for joining panels go from the bottoms of the recesses 15 to the opposite side, are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is a double shield type electromagnetic wave shield room. And an electromagnetic wave shield panel used therefor.

[0002]

2. Description of the Related Art As a conventional double shield type electromagnetic wave shield room, for example, there is one as shown in FIG. The double shield type electromagnetic wave shield panel 1
The conductive material 3 is provided on both sides of the insulating plate 2 formed of wood or the like.
3 is attached and formed. In the case of the double shield method, generally, the electromagnetic wave shield panel 1 itself becomes heavy, and a magnetic material such as a ferrite material may be attached to the indoor side wall of the panel 1, so that the panel 1 alone should have strength. Is difficult. Therefore, the channel material 7 and the like are used as a reinforcing material, and the electromagnetic wave shield panel 1 is first assembled and then attached. When joining the panels 1 and 1 to each other, the joining auxiliary plates 4 and 4 are arranged from the indoor side and the outdoor side so as to cross the panels 1 and 1 to be joined, and the joining auxiliary plates 4 and 4 on the indoor side and the indoor side are arranged. Panel 1, screws 5, 5, ...
Panels 1 and 1 are joined together by fixing with. In this way, the joining auxiliary plates 4 and 4 are arranged on both sides of the indoor side and the outdoor side, and they are fixed with the screws 5, 5, ... This is because the joining strength cannot be obtained by disposing the joining auxiliary plate 4 only on the indoor side and fixing the joining auxiliary plate 4 with the screws 5. In the case of the double shield method, basically, the screw 5 should be penetrated from the indoor side to the outdoor side in order to ensure the insulation between the conductive materials 3 that are attached to the indoor side and the outdoor side. I can't.

[0003]

However, in such a conventional technique, when joining the panels to each other, the construction must be performed from the inside and the outside of the room. In addition, since a joining auxiliary plate is also attached to the interior of the panel at the joints between panels, there is a step on the inner surface of the panel interior. It is necessary to do some processing. For this reason, there is a problem that the construction is troublesome and the number of work steps is increased.

The present invention has been made by paying attention to such a conventional problem. When the panels are joined to each other, they can be joined only from the inside of the room, and a ferrite material or the like is used. An object of the present invention is to provide an electromagnetic wave shield panel and an electromagnetic wave shield room that can be attached without any special processing when the magnetic material is attached to the inside of the room, and the number of work steps can be reduced. And

[0005]

In order to achieve the above object, a double shield type electromagnetic wave shield panel is provided with a plurality of screw head burial holes into which a screw head of a panel joining screw can be inserted, on one side. In addition, a screw neck through hole through which the lower part of the neck of the panel joining screw penetrates is formed on the other side from the bottom of the plurality of screw head buried holes.

In addition, the electromagnetic wave shield room of the double shield system for achieving the above-mentioned object has a plurality of electromagnetic wave shield panels and a plurality of screw holes into which the panel joining screws can be screwed. And a plurality of the electromagnetic wave shield panels, the plurality of electromagnetic wave shield panels being arranged adjacent to each other with the screw head buried holes facing the indoor side, and the joint auxiliary materials being joined together. And a plurality of the screw holes and a plurality of screw bottom through holes of the two electromagnetic shield rooms are arranged so as to oppose each other, and a plurality of the panel connecting screws are provided from the inside of the electromagnetic shield panel. Through the through hole under the screw,
It is characterized in that it is screwed into a plurality of screw holes of the joining auxiliary material.

[0007]

First, the joining auxiliary material is installed at a position where the screw hole faces the inside of the room and serves as a joint between the panels.
Next, a plurality of electromagnetic wave shield panels are installed so that the screw head buried holes face the indoor side and the panels are adjacent to each other at the joining auxiliary material already installed. At this time, the electromagnetic wave shield panel is installed so that the under-screw through hole of the electromagnetic wave shield panel and the screw hole of the joining auxiliary material face each other. Then, a panel joining screw is passed through the through hole of the electromagnetic wave shield panel from the indoor side, and the tip of the screw is screwed into the screw hole of the joining auxiliary material to fix the plurality of electromagnetic wave shield panels.

As described above, since the panels can be joined to each other only by performing the construction from the indoor side, it is possible to reduce the number of working steps. In addition, since the screw head of the panel joining screw goes into the screw head burial hole, there is no protrusion or the like on the indoor side of the electromagnetic wave shield panel, and the magnetic material or the like can be easily attached thereto. ..

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment according to the present invention will be described below with reference to FIG.
Starting from FIG. The electromagnetic wave shielded room of this embodiment is a double shielded type that shields electromagnetic waves at two places. As shown in FIGS. 1, 2 and 3, a plurality of electromagnetic wave shield panels 10, 10, ... It is configured to have the joining auxiliary materials 30, 40, 50 and the like.

As shown in FIGS. 4 and 5, the electromagnetic wave shield panel 10 includes a rectangular honeycomb panel 12 made of insulating paper and the honeycomb panel 1.
The rectangular insulating plate 11 is made of wood 13 and has the same thickness as that of the honeycomb panel 12, and the galvanized iron plates 14 and 14 are attached to both sides of the insulating plate 11. ing. Galvanized iron plate 14,
As shown in FIG. 4, 14 is provided so as to partly wrap around the periphery of the insulating plate 11 in order to enhance the electrical connectivity between the electromagnetic wave shield panels 10, 10 to be joined.

The electromagnetic wave shield panel 10 is provided with a plurality of screw head burying holes 15 into which the screw heads 91 of the panel joining screws 90 can be inserted, at positions where the wood piece 13 has on one side of the panel 10. An under-screw through hole 17 through which a screw neck lower portion 92 of the panel joining screw 90 can be inserted is formed at the bottom of the screw head buried hole 15 so as to penetrate to the other surface of the electromagnetic wave shield panel 10. Also, the screw head buried hole 1
A washer 16 is attached to the bottom of the No. 5.

As the joining auxiliary material, as shown in FIGS. 1, 2 and 3, the channel-shaped channel material 30 used for connecting the ceiling panels 10 and 10 to each other and the wall panels 10 and 10 to each other, and the floor. A flat iron plate 50 for joining floor panels, which is used for connecting the panels 10 to each other, and the wall panel 10.
And an angle member 40 used for connecting the floor panel 10 or the ceiling panel 10. As shown in FIG. 6, the bottom plate 31 of the channel member 30 has a panel bonding screw 90.
Panel 10 having a plurality of screw holes 32, 32, ...
Are formed so as to correspond to the positions of the screw through holes 17, 17. Further, as shown in FIGS. 9 and 10, the angle member 40 and the flat iron plate 50 for joining floor panels,
Like the channel material 30, the plurality of screw holes 42, 52
Has been drilled. The angle member 40 is provided with wood 41 whose one side in the lateral direction is substantially the same as the thickness of the panel 10 at its corner.

Next, a procedure for manufacturing the electromagnetic wave shielded room will be described. The angle member 40, which is a joining aid, and the flat iron plate 50 for joining floor panels are fixed at predetermined positions. As shown in FIGS. 1 and 2, the flat iron plate 50 for joining floor panels is arranged at a position where it joins the floor panels 10, 10. Next, in the floor panel 10, the screw head buried hole 15 faces the interior side and the screw neck through hole 17
And the angle member 40 and the screw holes 42, 52 of the flat iron plate 50 for joining the floor panel installed so as to face each other. Then, from the indoor side, the through hole 17 of the floor panel 10 is formed.
Insert the panel joint screw 90 into the
0 and the flat iron plate 50 are screwed into the screw holes 42 and 52 to fix the floor panel 10.

The leg members 60 as shown in FIG. 8 are fixed by contacting the already fixed angle members 40 at the positions where the wall panels 10, 10 are connected to each other. Then, the channel-shaped channel material 30 of the joining auxiliary material is bolted to the leg material 60 so that the bottom plate 31 faces the indoor side.

Next, in the wall panel 10, the screw head buried hole 15 faces the inside of the room, and the angle member 40 and the channel-shaped channel member 30 in which the screw head through hole 17 is installed.
The screw holes 42 and 32 are arranged so as to oppose each other. And
The panel joining screw 90 is passed through the through hole 17 of the wall panel 10 from the indoor side, and the tip thereof is screwed into the screw holes 42 and 32 of the angle member 40 and the channel member 30 to fix the wall panel 10.

When all the wall panels 10, 10, ... Fixing work is completed, the angle member 40 is provided on the upper portion of the wall panel 10.
Distribute. At this time, as shown in FIG. 1 and FIG. 2, the wood 41 of the angle member 40 is placed on the upper end surface of the wall panel 10, and the screw hole 42 of the angle member 40 and the screw-necked through hole 17 of the wall panel 10 are separated from each other. The angle members 40 are arranged so as to face each other. Then, the panel joining screw 90 is passed through from the indoor side of the wall panel 10, and the tip is screwed into the screw hole 4 of the angle member 40.
The angle member 40 is fixed to the wall panel 10 by screwing it in 2.

Next, as shown in FIGS. 2 and 7, 90
One end 71 of the corner flat plate 70 bent at an angle is bolted to the upper portion of the channel-shaped channel member 30 already installed. Further, the channel-shaped channel material 30, which is a bonding auxiliary material for the ceiling panels, is bolted to the other end 72 of the corner flat plate 70 so that the bottom plate 31 faces the indoor side.
Next, in the ceiling panel 10, the screw head buried hole 15 faces the inside of the room, and the angled member 40 and the screw holes 42 and 32 of the channel-shaped channel member 30 that are installed with the through hole 17 under the screw neck are arranged. Arrange to oppose. Then, similarly to the case where the floor panel 10 and the wall panel 10 are fixed, the screw 90 is inserted from the indoor side of the ceiling panel 10 to fix the ceiling panel 10.

As described above, when the panels 10 and 10 are connected to each other, the construction can be performed only from the indoor side, so that the number of working steps can be reduced. The panel joint screw 90 has a screw neck lower portion 92 whose end is electrically connected to the galvanized iron plate 14 on the outdoor side of the electromagnetic wave shield panel 10, and the screw head 91 is buried in the insulating plate 11. Therefore, it is not electrically connected to the galvanized iron plate 14 on the indoor side. Therefore, insulation between the galvanized iron plate 14 on the indoor side and the galvanized iron plate 14 on the indoor side is ensured. Further, in the present embodiment, the channel material 30 which is a joining auxiliary material also serves as a reinforcing material for the structure, so that the reinforcing material can be reduced.

When all the electromagnetic wave shield panels are fixed, as shown in FIG. 4, a hole plug 19 in which a conductive material 18b is attached to the indoor side of an insulating rubber material 18a,
It is embedded in the screw head buried hole 15 of the panel 10 and is bonded thereto. Further, copper foil tape is attached to the joints between the panels 10 and 10 and the hole plugs 19 so that the leakage of electromagnetic waves from the gaps is minimized.
Finally, a ferrite piece having a thickness of several millimeters is attached to the indoor side of the electromagnetic wave shield panel 10. At this time, since the surface of the electromagnetic wave shield panel 10 on the indoor side is substantially flat, the ferrite piece can be attached to the electromagnetic wave shield panel without any special processing.

[0020]

According to the present invention, since the panels can be joined to each other by the construction only from the indoor side, it is possible to reduce the number of working steps. Further, since there is no protrusion or the like on the indoor side of the electromagnetic wave shield panel, a magnetic material or the like can be easily attached.

[Brief description of drawings]

FIG. 1 is a sectional view taken along line I-I in FIG.

FIG. 2 is a sectional view taken along line III-III in FIG.

FIG. 3 is a perspective view of a main part of an electromagnetic wave shielded room according to an embodiment of the present invention.

FIG. 4 is a cross-sectional view of a joint portion between the electromagnetic wave shield panels of one embodiment according to the present invention.

FIG. 5 is an overall perspective view of an electromagnetic wave shield panel according to an embodiment of the present invention.

FIG. 6 is an overall perspective view of a channel material according to an embodiment of the present invention.

FIG. 7 is an overall perspective view of a corner flat plate according to an embodiment of the present invention.

FIG. 8 is an overall perspective view of a leg member according to an embodiment of the present invention.

FIG. 9 is an overall perspective view of an angle member according to an embodiment of the present invention.

FIG. 10 is an overall perspective view of a flat iron plate for joining floor panels according to an embodiment of the present invention.

FIG. 11 is a sectional view of a main part of a conventional electromagnetic wave shield room.

[Explanation of symbols]

10 ... Electromagnetic wave shield panel, 11 ... Insulation plate, 12 ... Honeycomb panel, 13 ... Wood, 14 ... Galvanized steel plate, 1
5 ... screw head buried hole, 17 ... screw neck lower through hole, 18a ...
Rubber material, 19 ... Hole plug, 30 ... Channel material, 32, 42,
52 ... Screw hole, 40 ... Channel material, 50 ... Flat iron plate for joining floor panel, 60 ... Leg material, 70 ... Corner flat plate, 9
0 ... Screw for panel joining, 91 ... Screw head, 92 ... Lower part of screw neck.

Claims (4)

[Claims] 1. A double shield type electromagnetic wave shield panel in which a conductive material is applied to at least both sides of an insulating plate, and a plurality of screw head burying holes into which a screw head of a panel joining screw can be inserted on one side. And an under-screw through hole through which the lower part of the neck of the panel joining screw penetrates is formed on the other side from the bottom of the plurality of screw head buried holes. .. 2. A plurality of the electromagnetic wave shield panels according to claim 1, and a plurality of joining auxiliary members having a plurality of screw holes into which the panel joining screws can be screwed. Panels are arranged adjacent to each other with the screw head buried holes facing the indoor side, and the joining auxiliary material extends across the two electromagnetic wave shield panels to be joined, and the plurality of screw holes and the two screw holes are provided. The plurality of under-neck through-holes of the electromagnetic shield room are arranged so as to oppose each other, and the plurality of panel joining screws pass through the under-neck through-holes of the electromagnetic shield panel from the indoor side to the joining auxiliary material. An electromagnetic wave shield room characterized by being screwed into a plurality of screw holes. 3. An insulating material which can be inserted into the screw head buried hole and a conductive material which is attached to one side thereof, in the screw head buried hole of the electromagnetic wave shield panel to which the panel joining screw is mounted. The electromagnetic wave shield room according to claim 2, wherein the hole plug is embedded so that the conductive material and the conductive material of the electromagnetic wave shield panel are in contact with each other. 4. The electromagnetic wave shield room according to claim 2 or 3, wherein a conductive material is attached to the indoor side of the electromagnetic wave shield panel so as to extend across two adjacent electromagnetic wave shield panels.