JP2008206074A - Communication sheet body structure used on top plate - Google Patents
Communication sheet body structure used on top plate Download PDFInfo
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- JP2008206074A JP2008206074A JP2007042710A JP2007042710A JP2008206074A JP 2008206074 A JP2008206074 A JP 2008206074A JP 2007042710 A JP2007042710 A JP 2007042710A JP 2007042710 A JP2007042710 A JP 2007042710A JP 2008206074 A JP2008206074 A JP 2008206074A
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Abstract
Description
本発明は、2次元的な広がりを持つ通信用シート構造体であって、情報通信機器がその表面に接触もしくは近接することで、当該通信機器との間で通信を行ったり、複数の情報通信機器がその表面に接触もしくは近接している場合に、これらの間の通信を中継するのに最適な、天板上で用いる通信用シート構造体(以下、通信用シート構造体と称することがある)に関するものである。 The present invention is a communication sheet structure having a two-dimensional expanse, and when an information communication device is in contact with or close to the surface thereof, it communicates with the communication device or a plurality of information communication devices. When a device is in contact with or close to its surface, the communication sheet structure used on the top board, which is optimal for relaying communication between them (hereinafter sometimes referred to as a communication sheet structure) ).
近年、インターネットに代表されるコンピューター通信網や情報ネットワークの利用が一般家庭・企業等を問わずに普及、一般化し増加してきている。最も一般的な利用形態は、パソコンなどにLANケーブルを直接接続したり、無線を用いて接続したりしてLAN(LocalArea Network)を形成しLAN内のコンピューターからインターネットなどのネットワークへのアクセスを可能としている。そのような中にあって、LANケーブルを用いる場合は、このケーブルが家屋やオフィス内に引き回され、歩行の妨げになったり、美観上の問題となる。また、無線LANを用いる場合、電波の放射を用いて通信を行うため、情報漏洩や不正アクセスなどのセキュリティ上の問題がある。 In recent years, the use of computer communication networks and information networks represented by the Internet has become widespread and generalized regardless of general households and companies. The most common usage mode is to connect a LAN cable directly to a personal computer, etc., or connect wirelessly to form a LAN (Local Area Network), and access to a network such as the Internet from a computer in the LAN It is said. Under such circumstances, when a LAN cable is used, the cable is routed in a house or office, which may hinder walking or cause an aesthetic problem. In addition, when a wireless LAN is used, communication is performed using radio wave radiation, which causes security problems such as information leakage and unauthorized access.
そこで、通信手段を2次元にし、2次元上の通信媒体を用いることでこれら問題が解決できることが、特許文献1(特開2004−7448号公報)、特許文献2(特開2006−19979号公報)に開示されている。 Therefore, it is possible to solve these problems by using two-dimensional communication means and using a two-dimensional communication medium. Patent Document 1 (Japanese Patent Laid-Open No. 2004-7448) and Patent Document 2 (Japanese Patent Laid-Open No. 2006-19979). ).
上記通信手段で通信を行う場合には、その通信に使用する周波数を設定し通信を行わなければならないが、いずれの従来技術でも通信する際の周波数が規定されていない。また、2次元で通信を行うには、2次元通信用シート媒体内に電磁エネルギーを閉じ込め、そのエネルギーを利用しなければならないが、そのような検討も未だなされていないのが実状である。 When communication is performed by the communication means, it is necessary to set the frequency used for the communication and perform the communication. However, any conventional technology does not define the frequency for communication. Further, in order to perform communication in two dimensions, electromagnetic energy must be confined in the two-dimensional communication sheet medium, and the energy must be used, but such a study has not yet been made.
さらに、いずれの従来技術に記載されている通信媒体を、テーブル、机、棚などの天板上で日常的に用いたり、あるいは通信用シート構造体を何度も持ち運び別の天板上で広げて使用したりしたとき、シートに凹凸や破損が生じて、表面品位が損なわれ、さらには使用が困難になるという問題がある。 In addition, the communication media described in any of the prior arts are used on a table top, a table top, a table top, a shelf top, etc. on a daily basis, or the communication sheet structure is carried many times and spread on another top plate. When used, the sheet has irregularities or breakage, which deteriorates the surface quality and makes it difficult to use.
上記背景技術に鑑み検討した結果、本発明者は、800MHzから5GHzの周波数において上記通信用シート媒体内にエネルギーを閉じ込め2次元にて通信が可能であることを見出した。 As a result of examination in view of the background art, the present inventor has found that energy can be confined in the communication sheet medium at a frequency of 800 MHz to 5 GHz and communication can be performed in two dimensions.
したがって、本発明の目的は、周波数が800MHzから5GHzの周波数帯で2次元での通信でき、持ち運びによる表面品位の低下が少なく、耐久性にも優れた、テーブル、机、棚などの天板の上で使用に適した天板上で用いる通信用シート構造体を提供することにある。 Therefore, the object of the present invention is to provide a two-dimensional communication in the frequency band of 800 MHz to 5 GHz, with little deterioration in surface quality due to carrying, and excellent durability. An object of the present invention is to provide a communication sheet structure used on a top board suitable for use above.
発明者が検討した結果、上記課題は、少なくとも下記の上層、中層および下層の3つの層から構成されるシート構造体からなり、シート構造体の厚みが3.0mm以下、上層の厚みが30μmから300μmのフィルムからなる、天板上で用いる通信用シート構造体により解決できることが見出した。 As a result of the inventor's investigation, the above-described problem is composed of a sheet structure composed of at least the following three layers, the upper layer, the middle layer, and the lower layer. It has been found that this can be solved by a communication sheet structure made of a 300 μm film and used on a top board.
上層:導電性能を有する層であり、該層には導電部と非導電部が存在し、該導電部の割合が8%から45%であり、導電部が完全に途切れることなく連続し、導電部の電気抵抗値が1m2あたり5Ω以下である層。
中層:周波数800MHzから5GHzにおける誘電正接が0.01以下である層。
下層:全面に導電性を有し、1m2あたりの電気抵抗値が1Ω以下である層。
Upper layer: a layer having conductive performance, where the conductive portion and the non-conductive portion are present in the layer, the proportion of the conductive portion is 8% to 45%, and the conductive portion is continuous without any interruption. Layer having an electrical resistance value of 5 Ω or less per 1 m 2 .
Middle layer: a layer having a dielectric loss tangent of 0.01 or less at a frequency of 800 MHz to 5 GHz.
Lower layer: a layer having conductivity on the entire surface and having an electric resistance value of 1Ω or less per 1 m 2 .
本発明の天板上で用いる通信用シート構造体によれば、天板上にてケーブルや無線を使わずに通信することができる。また、上記通信シート構造体は、持ち運びによる表面品位の低下が少なく、耐久性にも優れている。 According to the communication sheet structure used on the top plate of the present invention, communication can be performed on the top plate without using a cable or radio. Moreover, the said communication sheet structure has little fall of the surface quality by carrying, and is excellent also in durability.
本発明の通信用シート構造体は、天板上で用いる、すなわち天板上での使用に適した、通信用シート構造体である。ここで天板上とは、テーブル、机、棚などの立体構造体にある平面状部分の上面をいう。これらの天板上で上記通信用シート構造体を用いる場合、その上に、文具、生活用品、書籍、音響機器、通信機器、コンピュータなどを置いたり、その上で、文字や絵を書いたり、さらに、通信用シート構造体を持ち運んでまた別の場所で広げて使用したりする。 The communication sheet structure of the present invention is a communication sheet structure that is used on the top board, that is, suitable for use on the top board. Here, the top plate means the upper surface of a planar portion in a three-dimensional structure such as a table, a desk, or a shelf. When using the above communication sheet structure on these top plates, put stationery, daily necessities, books, audio equipment, communication equipment, computers, etc. on it, write letters and pictures on it, Furthermore, the communication sheet structure is carried and used in another place.
これに対して、本発明の通信シート構造体は、後述する少なくとも3つの層から構成されるシート構造体からなり、特に通信用シート構造体の厚みと、上層にフィルムを用いその厚みが次に述べる要件を同時に満足していることにより、上記使用による磨耗などに十分に耐え、持ち運びによる表面品位の低下が少なく、かつ十分な通信性能を発揮する。 On the other hand, the communication sheet structure of the present invention is composed of a sheet structure composed of at least three layers, which will be described later, and in particular, the thickness of the communication sheet structure and the thickness of the upper layer are the following. By satisfying the requirements to be described at the same time, it can sufficiently withstand the wear and the like due to the above-mentioned use, has little deterioration in surface quality due to carrying, and exhibits sufficient communication performance.
すなわち、本発明の通信用シート構造体は、厚みが3.0mm以下でなければならない。厚みが3.0mmを超えると、屈曲に対して弱く、表面に凹凸が発生し易くなり持ち運びが非常に難しくなってしまう。ここで、通信用シート構造体の厚みは、下記上層、中層、下層の厚みを調整すればよいが、特に中層の厚みを調整すればよい。なお、通信用シート構造体の厚みは、好ましくは1.0mmから2.5mmである。 That is, the communication sheet structure of the present invention must have a thickness of 3.0 mm or less. If the thickness exceeds 3.0 mm, it is weak against bending and unevenness is likely to occur on the surface, making it very difficult to carry. Here, the thickness of the communication sheet structure may be adjusted by adjusting the thicknesses of the following upper layer, middle layer, and lower layer, and particularly by adjusting the thickness of the middle layer. The thickness of the communication sheet structure is preferably 1.0 mm to 2.5 mm.
また、上層フィルムの厚みは通信用シート構造体としての耐久性及び品位を考慮し、30μm〜300μmでなければならない。厚みが30μm未満の場合、耐摩耗性に乏しく、フィルムの破れが発生し易くなる。また、厚みが300μmを超える場合、持ち運び時にフィルム表面に凹凸が発生し易くなるため、通信用シート構造体の表面品位が低下してしまう。 In addition, the thickness of the upper film must be 30 μm to 300 μm in consideration of durability and quality as a communication sheet structure. When the thickness is less than 30 μm, the abrasion resistance is poor and the film is easily broken. In addition, when the thickness exceeds 300 μm, unevenness is likely to occur on the film surface during carrying, so that the surface quality of the communication sheet structure deteriorates.
さらに、本発明の通信用シート構造体は、少なくとも、上層、中層、下層の3つの層からなる。2次元で通信を行うには、このシート構成にて、シート媒体内に電磁エネルギーを閉じ込め、そのエネルギーを利用しなければならない。シート構成が異なると、シート媒体内に電磁エネルギーを閉じ込めることができず、通信することができなくなってしまう。 Furthermore, the communication sheet structure of the present invention comprises at least three layers: an upper layer, a middle layer, and a lower layer. In order to perform two-dimensional communication, electromagnetic energy must be confined in the sheet medium and utilized using this sheet configuration. If the sheet configuration is different, electromagnetic energy cannot be confined in the sheet medium, and communication cannot be performed.
上層:
上層の導電性については、層内に導電部と非導電部が存在し、導電部の面積が8%から45%で導電部が完全に途切れることなく連続していなければならない。層内の導電部の割合が8%未満では電磁エネルギーが消失してしまい良好な通信状態を保つことができ無くなる。一方、導電部の割合が45%を超えると、シート内での電磁エネルギーが相互干渉してしまうため、良好な通信状態を保つことができ無くなる。上記導電部の電気抵抗値も通信性能を大きく左右するものであり、電気抵抗値が低いほうが通信状態を良好に保つことができる。導電部の電気抵抗値が1m2あたり5Ω以下となれば、良好な通信状態を保つことができる。しかしながら、上層導電部の電気抵抗値が1m2あたり5Ωを超える場合、シート内に電磁エネルギーを伝播、内在させることができ無いため、2次元での通信ができなくなってしまう。ここで、導電部の電気抵抗値を1m2あたり5Ω以下にするには、銅、銀、アルミニウム、ステンレスを含んだ素材を使用することが良い。
なお、上記導電部の電気抵抗値は、1m2あたり好ましくは0.001Ωから3Ωである。
Upper layer:
Regarding the conductivity of the upper layer, the conductive portion and the non-conductive portion are present in the layer, and the conductive portion area should be continuous from 8% to 45% without being completely interrupted. If the proportion of the conductive portion in the layer is less than 8%, the electromagnetic energy is lost and a good communication state cannot be maintained. On the other hand, when the proportion of the conductive portion exceeds 45%, electromagnetic energy in the sheet interferes with each other, so that a good communication state cannot be maintained. The electrical resistance value of the conductive part also greatly affects the communication performance, and the lower the electrical resistance value, the better the communication state can be maintained. If the electric resistance value of the conductive portion is 5Ω or less per 1 m 2 , a good communication state can be maintained. However, when the electrical resistance value of the upper conductive portion exceeds 5Ω per 1 m 2 , electromagnetic energy cannot be propagated and contained in the sheet, and two-dimensional communication becomes impossible. Here, in order to set the electric resistance value of the conductive portion to 5Ω or less per 1 m 2, it is preferable to use a material containing copper, silver, aluminum, and stainless steel.
The electrical resistance value of the conductive part is preferably 0.001Ω to 3Ω per 1 m 2 .
上層に導電性能を付与するには、導電性を有する素材を使用すれば良く、銅、銀、アルミニウム、ニッケルなどの金属を含んだもの、カーボンブラックを含んだものなどが特に良い。上層の導電形状も特に限定されないが、通信用シート構造体製造時の加工性を考えた場合、図1に示す格子状や図2に示す蜂の巣状であることが好ましい。その中でも、格子状であり、格子線幅が0.5mmから1.5mm、格子線間隔が5mmから10mmであることが特に好ましい。
なお、上層の目付けは、好ましくは50g/m2から300g/m2、より好ましくは100g/m2から250g/m2である。
In order to impart conductive performance to the upper layer, a conductive material may be used, and those containing metals such as copper, silver, aluminum, nickel, and those containing carbon black are particularly good. The conductive shape of the upper layer is not particularly limited, but when considering the workability at the time of manufacturing the communication sheet structure, it is preferably the lattice shape shown in FIG. 1 or the honeycomb shape shown in FIG. Among them, it is particularly preferable that the lattice shape is 0.5 to 1.5 mm and the interval between the lattice lines is 5 to 10 mm.
The basis weight of the upper layer is preferably 50 g / m 2 to 300 g / m 2 , more preferably 100 g / m 2 to 250 g / m 2 .
中層:
本発明の中層は、800MHzから5GHzでの誘電正接が0.01以下となる形状、素材であれば良い。形状として、特に好ましくは、樹脂板、適度に空気層を含んだ不織布などの繊維構造体や発泡させた樹脂シートなどである。素材としては、ポリエチレン(PE)、ポリプロピレン(PP)などのポリオレフィンや、ポリエチレンテレフタレート(PET)、ポリエチレンナフタレート(PEN)、ポリブチレンテレフタレート(PBT)、ポリトリメチレンテレフタレート(PTT)などのポリエステルであれば、良好な通信状態を保つことができる。しかしながら、800MHzから5GHzでの誘電正接が0.01を超えると、シート内に電磁エネルギーを内在させることができずエネルギーロスが発生する。そのため、通信性能が大きく低下してしまう。
Middle layer:
The middle layer of the present invention may be any shape or material that has a dielectric loss tangent of 0.01 or less from 800 MHz to 5 GHz. The shape is particularly preferably a resin plate, a fiber structure such as a nonwoven fabric appropriately including an air layer, or a foamed resin sheet. Materials include polyolefins such as polyethylene (PE) and polypropylene (PP), and polyesters such as polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polybutylene terephthalate (PBT), and polytrimethylene terephthalate (PTT). Thus, a good communication state can be maintained. However, if the dielectric loss tangent from 800 MHz to 5 GHz exceeds 0.01, electromagnetic energy cannot be contained in the sheet, resulting in energy loss. For this reason, the communication performance is greatly reduced.
ここで、上記誘電正接を0.01以下にするには、ポリオレフィン素材を使用するか、空気層を含んだ形状であることが好ましい。
上記誘電正接は、好ましくは0.001から0.01である。
なお、中層の厚みは、好ましくは0.2mmから2.5mm、より好ましくは0.5mmから2.0mmである。
また、中層の目付けは、好ましくは50g/m2から500g/m2、より好ましくは80g/m2から300g/m2である。
Here, to make the dielectric loss tangent 0.01 or less, it is preferable to use a polyolefin material or a shape including an air layer.
The dielectric loss tangent is preferably 0.001 to 0.01.
The middle layer preferably has a thickness of 0.2 mm to 2.5 mm, more preferably 0.5 mm to 2.0 mm.
The basis weight of the middle layer is preferably 50 g / m 2 to 500 g / m 2 , more preferably 80 g / m 2 to 300 g / m 2 .
下層:
下層は、全面に電磁波シールド性能を有していれば良好な通信状態を保つことができる。電気抵抗値としては、1m2あたり1Ω以下であればよい。しかしながら、下層が全面に導電性を有していない場合、例えば、一部分に絶縁部が存在する場合、または/あるいは、電気抵抗値が1m2あたり1Ωを超えるような場合、その分部から電磁エネルギーが漏洩してしまう。そのため、シート内に電磁エネルギーを内在させることができずエネルギーロスが発生し、通信性能が大きく低下してしまう。
Underlayer:
If the lower layer has electromagnetic shielding performance on the entire surface, a good communication state can be maintained. The electrical resistance value may be 1Ω or less per 1 m 2 . However, if the lower layer does not have conductivity on the entire surface, for example, if there is an insulating part in a part, or / or if the electrical resistance value exceeds 1Ω per 1 m 2 , the electromagnetic energy from that part Leaks. For this reason, electromagnetic energy cannot be contained in the sheet, energy loss occurs, and communication performance is greatly reduced.
ここで、電気抵抗値を1m2あたり1Ω以下にするには、通信用シート構造体製造時の加工性を考えた場合、繊維布帛に銅、ニッケルなどをメッキした布帛や、フィルム面に銅、銀、アルミニウムなどを蒸着させたフィルム状のもの、銅箔やアルミ箔などの金属箔などが好ましく、これらを使用することで、良好な通信状態を保つことができる。
上記電気抵抗値は、好ましくは0.001Ωから0.8Ωである。
なお、下層の厚みは、好ましくは0.05mmから0.5mm、より好ましくは0.1mmから0.4mmである。
また、下層の目付けは、好ましくは50g/m2から250g/m2、より好ましくは80g/m2から200g/m2である。
Here, in order to reduce the electrical resistance value to 1 Ω or less per 1 m 2 , when considering the workability at the time of manufacturing the communication sheet structure, a fabric obtained by plating copper, nickel or the like on a fiber fabric, or copper on a film surface, A film-like material in which silver, aluminum, or the like is vapor-deposited, or a metal foil such as a copper foil or an aluminum foil is preferable. By using these, a good communication state can be maintained.
The electric resistance value is preferably 0.001Ω to 0.8Ω.
The lower layer preferably has a thickness of 0.05 mm to 0.5 mm, more preferably 0.1 mm to 0.4 mm.
The basis weight of the lower layer is preferably 50 g / m 2 to 250 g / m 2 , more preferably 80 g / m 2 to 200 g / m 2 .
本発明の通信用シート構造体は、少なくとも上層、中層、下層の3つの層からなるが、これらは一体のものであっても良いし、各層を接着させた構造としても良い。各層を接着させる場合、接着に用いる接着剤や接着の方法に関して特に規定されることは無いが、ホットメルト樹脂による熱接着やアクリル樹脂やウレタン樹脂などによる接着、アクリル系粘着剤による接着、スチレンブタジエンゴム(SBR)やイソプレンゴム(IR)などによる接着などが好ましい。 The communication sheet structure of the present invention is composed of at least three layers, ie, an upper layer, a middle layer, and a lower layer, but these may be integrated or a structure in which each layer is bonded. When adhering each layer, there are no particular restrictions on the adhesive used for adhesion and the method of adhesion, but thermal adhesion with hot melt resin, adhesion with acrylic resin or urethane resin, adhesion with acrylic adhesive, styrene butadiene Adhesion with rubber (SBR) or isoprene rubber (IR) is preferred.
本発明のデスクマットが一体構造の場合、中層の上面に導電性能を有する上層を形成させる。この場合、特にその方法は限定されていないが、プリントやエッチングにより導電性能を有する層を形成させることが好ましい。そして、その上に保護層としてフィルム層を形成させる。そして中層の下面には、全面に導電性能を有する下層を形成させる。下層を形成させる方法についても特に限定されていないが、エッチングや蒸着、スパッタリングなどによって導電性能を有する層を形成させることが好ましい。 When the desk mat of the present invention has a monolithic structure, an upper layer having conductive performance is formed on the upper surface of the middle layer. In this case, the method is not particularly limited, but it is preferable to form a layer having conductive performance by printing or etching. And a film layer is formed on it as a protective layer. A lower layer having conductive performance is formed on the entire lower surface of the middle layer. The method for forming the lower layer is not particularly limited, but it is preferable to form a layer having conductive performance by etching, vapor deposition, sputtering, or the like.
本発明の通信用シート構造体が各層を接着させた構造の場合、上層の形状はフィルムであることが好ましい。また、素材としてもポリエチレンテレフタレート(PET)、ポリエチレンナフタレート(PEN)、ポリブチレンテレフタレート(PBT)、ポリトリメチレンテレフタレート(PTT)などのポリエステル、ナイロン6、ナイロン66、ナイロン12などの脂肪族ポリアミド、ポリパラフェニレンテレフタルアミド、ポリメタフェニレンテレフタルアミドなどの芳香族ポリアミド、ポリプポピレン(PP)、ポリエチレン(PE)、ポリカーボネート(PC)、ポリイミド(PI)など特に限定されることは無い。 When the communication sheet structure of the present invention has a structure in which each layer is bonded, the shape of the upper layer is preferably a film. In addition, as the material, polyesters such as polyethylene terephthalate (PET), polyethylene naphthalate (PEN), polybutylene terephthalate (PBT), polytrimethylene terephthalate (PTT), aliphatic polyamides such as nylon 6, nylon 66, and nylon 12, There are no particular limitations on aromatic polyamides such as polyparaphenylene terephthalamide and polymetaphenylene terephthalamide, polypropylene (PP), polyethylene (PE), polycarbonate (PC), and polyimide (PI).
また、中層は、前述したように、800MHzから5GHzで誘電正接が0.01以下となる形状・素材であれば良い。
下層は、電気抵抗値が1m2あたり1Ω以下で全面に電磁波シールド性能を有したものであれば特に限定されない。前述のように、シート製造時の加工性及びシート構造体の厚みを考えた場合、繊維布帛に銅、ニッケルでメッキされた布帛や、フィルム面に銅、銀、アルミニウムなどを蒸着させたフィルム状のもの、銅箔やアルミ箔などの金属箔などが好ましく、これらを使用することで、良好な通信状態を保つことができる。
Further, as described above, the middle layer may be any shape / material that has a dielectric loss tangent of 0.01 or less from 800 MHz to 5 GHz.
The lower layer is not particularly limited as long as the electrical resistance value is 1Ω or less per 1 m 2 and the entire surface has electromagnetic shielding performance. As mentioned above, when considering the workability during sheet manufacturing and the thickness of the sheet structure, a fabric formed by plating copper, nickel, or aluminum on the film surface, or a fabric plated with copper or nickel on the fiber fabric. And metal foils such as copper foil and aluminum foil are preferable, and a good communication state can be maintained by using these.
本発明の通信用シート構造体全体の目付けは、好ましくは200g/m2から800g/m2、さらに好ましくは250g/m2から600g/m2である。200g/m2未満では、通信する為の構造体を得ることが難しくなり、一方、800g/m2を超えると、非常に重くなる為に容易に持ち運ぶことが難しくなる傾向にある。また、自重によってたわみが生じ、表面品位が低下し易くなる。 The basis weight of the entire communication sheet structure of the present invention is preferably 200 g / m 2 to 800 g / m 2 , more preferably 250 g / m 2 to 600 g / m 2 . If it is less than 200 g / m 2 , it is difficult to obtain a structure for communication. On the other hand, if it exceeds 800 g / m 2 , it becomes very heavy and tends to be difficult to carry. Further, deflection occurs due to its own weight, and the surface quality tends to be lowered.
なお、本発明の通信用シート構造体は、その使用環境に合わせて、上層部表面に保護層を持たせることができる。その場合の保護層は、使用環境に合わせて適宜設定すれば良い。
保護層としては、PETやPENなどのポリエステルフィルム、PEやPPなどのポリオレフィンフィルム、ポリイミド、エチレン−ビニルアルコールフィルムなどのフィルムや、アクリル系樹脂、ウレタン系樹脂などの樹脂が挙げられる。
In addition, the communication sheet structure of the present invention can have a protective layer on the surface of the upper layer portion according to the use environment. The protective layer in that case may be appropriately set according to the use environment.
Examples of the protective layer include polyester films such as PET and PEN, polyolefin films such as PE and PP, films such as polyimide and ethylene-vinyl alcohol film, and resins such as acrylic resins and urethane resins.
以下、実施例より本発明をさらに詳細に説明する。通信性能の評価方法、判定は次のとおりである。 Hereinafter, the present invention will be described in more detail with reference to examples. The evaluation method and determination of communication performance are as follows.
1)評価方法
図3に示したように、通信用シート構造体上に置かれた2つの近接コネクターを距離rだけ離して配置し、アジデント社製、ネットワークアナライザーを用いて、2.45GHzにおける透過係数Xを計測する。ここで、近接コネクターの距離は、10cm間隔とし10cmから80cmまで計測を行った。また、使用した近接コネクターは、通信用シート構造体で2.45GHzにピークを持つものを使用した。
1) Evaluation method As shown in FIG. 3, two proximity connectors placed on a communication sheet structure are arranged at a distance r, and transmission at 2.45 GHz is performed using a network analyzer manufactured by Agilent. Measure the coefficient X. Here, the distance between the proximity connectors was 10 cm and measured from 10 cm to 80 cm. The proximity connector used was a communication sheet structure having a peak at 2.45 GHz.
2)判定
2−1)計測した透過係数Xの平均値(Xav.)を算出した。Xav.≧−30dBであれば合格とし、それ以外は不合格とする。
2−2)最大透過係数(Xmax)と最小透過係数(Xmin)の差(ΔX)を算出し、ΔX≦10dBであれば合格とし、それ以外は不合格とした。
2) Determination 2-1) The average value (Xav.) Of the measured transmission coefficient X was calculated. Xav. If it is ≧ −30 dB, it will be accepted, otherwise it will be rejected.
2-2) The difference (ΔX) between the maximum transmission coefficient (Xmax) and the minimum transmission coefficient (Xmin) was calculated. If ΔX ≦ 10 dB, the result was acceptable, and the others were unacceptable.
3)測定
3−1)電気抵抗値
三菱化学製「ロレスタMPMCP−T350」を用いて、上層および下層の電気抵抗値を測定した。
3−2)誘電正接
2.45GHzでの誘電正接を、円筒空胴共振器法にて測定した。
3−3)厚み
尾崎製作所製「ダイヤルシックネスゲージ」を用いて上層の厚みと通信用シート構造体の厚みを測定した。
3) Measurement 3-1) Electrical resistance value The electrical resistance value of the upper layer and the lower layer was measured using "Loresta MPMCP-T350" manufactured by Mitsubishi Chemical.
3-2) Dielectric loss tangent The dielectric loss tangent at 2.45 GHz was measured by a cylindrical cavity resonator method.
3-3) Thickness Using the “Dial Thickness Gauge” manufactured by Ozaki Seisakusho, the thickness of the upper layer and the thickness of the communication sheet structure were measured.
4)机上(天板上)で用いる通信用シートとしての性能確認
4−1)耐摩耗性測定および評価方法
JIS L 1096−1999 8.17.3 C法(テーパ形法)によって測定した。測定条件はJIS規定に準拠して行った。摩耗輪No.はCS−10とし、荷重は500gfで100回摩耗した。その後、外観を次のように判定しAを合格とした。
A:異常なし
B:やや損傷している
C:たて又はよこが切断している
4−2)表面品位
幅60cm、長さ200cmの大きさの通信用シート構造体を作製し、5m離れた2点間を人間の手によって持ち運び、その後の表面品位を判定した。なお、持ち運び回数は20回の往復とし、判定は10人が行うこととし、その平均を取り3以上を合格とした。
1:表面の凹凸が激しく光が乱反射する状態
2:表面の凹凸が激しい状態
3:表面の凹凸はあるが、気にならない状態
4:表面の凹凸が殆どない状態
5:表面の凹凸がない状態
4) Performance confirmation as a communication sheet used on a desk (on the top plate) 4-1) Wear resistance measurement and evaluation method Measured by JIS L 1096-1999 8.17.3 C method (taper type method). The measurement conditions were performed in accordance with JIS regulations. Wear wheel no. Was CS-10, and the load was 500 gf, and was worn 100 times. Thereafter, the appearance was determined as follows, and A was determined to be acceptable.
A: No abnormality B: Slightly damaged C: Vertical or horizontal cut 4-2) Surface quality A communication sheet structure having a width of 60 cm and a length of 200 cm was prepared, and 5 m away. It was carried between two points by human hands, and the subsequent surface quality was judged. In addition, the number of times of carrying was 20 round trips, and the judgment was made by 10 people, and the average was taken and 3 or more was accepted.
1: State where surface irregularities are intense and light is irregularly reflected 2: State where surface irregularities are intense 3: State where surface irregularities are present, but state of concern is not present 4: State where surface irregularities are scarcely present 5: State where surface irregularities are absent
[実施例1]
上層には銀ペーストを格子状にプリントした50μmのポリエチレンテレフタレート(PET)フィルム(帝人デュポンフィルム社製、テトロンフィルムSL、以下同じ)、中層には厚さ1mmの発泡ポリエチレン(積水フィルム社製、以下同じ)樹脂(下関パッキング社製の軟質ポリエチレン板、以下同じ)、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛(帝人ファイバー社製「ST2050」、以下同じ)を使用した。上層の格子形状は、線幅が0.6mm、線間隔が10mmであり、導電部比率は12%である。まず、中層の両面にアクリル系粘着剤(大日本インキ化学工業製「クイックマスターSPS−945T」、以下同じ)を付着量が各面10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.7Ω、中層の誘電正接は0.007、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Example 1]
The upper layer is a 50 μm polyethylene terephthalate (PET) film (Teijin DuPont Films, Tetron film SL, the same shall apply hereinafter) in which a silver paste is printed in a grid pattern, and the middle layer is 1 mm thick foamed polyethylene (Sekisui Films, manufactured below) The same) resin (soft polyethylene plate manufactured by Shimonoseki Packing Co., hereinafter the same), the lower layer is a PET cloth coated with copper / nickel, 0.15 mm thick, 85 g / m 2 electromagnetic shielding fabric (manufactured by Teijin Fibers Ltd. “ ST2050 ", the same applies hereinafter). The lattice shape of the upper layer has a line width of 0.6 mm, a line interval of 10 mm, and a conductive portion ratio of 12%. First, an acrylic pressure-sensitive adhesive (Dainippon Ink & Chemicals "Quickmaster SPS-945T", the same applies hereinafter) was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 on each side. Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electrical resistance value of the upper conductive part was 0.7Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.007, and the electrical resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
[実施例2]
上層には銀ペーストを格子状にプリントした250μmのPETフィルム、中層には厚さ1mmの発泡ポリエチレン、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛を使用した。上層の格子形状は、線幅が1.4mm、線間隔が5mmであり、導電部比率は42%である。まず、中層の両面にアクリル系粘着剤を付着量が各面10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.2Ω、中層の誘電正接は0.007、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Example 2]
The upper layer is a 250 μm PET film in which a silver paste is printed in a lattice pattern, the middle layer is a foamed polyethylene having a thickness of 1 mm, the lower layer is a PET cloth plated with copper / nickel, a thickness of 0.15 mm, and a basis weight of 85 g / m 2 . An electromagnetic shielding fabric was used. The upper layer lattice shape has a line width of 1.4 mm, a line interval of 5 mm, and a conductive portion ratio of 42%. First, an acrylic pressure-sensitive adhesive was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 on each surface. Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electric resistance value of the upper conductive portion was 0.2Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.007, and the electric resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
[実施例3]
上層には銀ペーストを格子状にプリントした100μmのPETフィルム、中層には厚さ2mmの低密度ポリエチレン樹脂(下関パッキング社製の軟質ポリエチレン樹脂板、以下同じ)、下層にはアルミニウムを蒸着させた厚さ10μmのエバールフィルム(クラレ社製のVM−XL)を使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。まず、中層の両面にアクリル系粘着剤を付着量が各面10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.4Ω、中層の誘電正接は0.009、下層の電気抵抗値は0.8Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Example 3]
The upper layer is a 100 μm PET film printed with a silver paste in a lattice pattern, the middle layer is a low-density polyethylene resin with a thickness of 2 mm (a soft polyethylene resin plate manufactured by Shimonoseki Packing Co., Ltd.), and the lower layer is aluminum. An Eval film (VM-XL manufactured by Kuraray Co., Ltd.) having a thickness of 10 μm was used. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. First, an acrylic pressure-sensitive adhesive was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 on each surface. Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electric resistance value of the upper conductive portion was 0.4Ω per 1 m 2 , the dielectric tangent of the middle layer was 0.009, and the electric resistance value of the lower layer was 0.8Ω. When the upper layer was adhered, the printed surface was adhered.
[実施例4]
上層には銀ペーストを格子状にプリントした100μmのPETフィルム、中層には厚さ1mmの発泡ポリエチレン、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛を使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。これらを、SBR系接着剤(住友スリーエム社製の3Mスプレーのり77、以下同じ)を塗布量が20g/m2になるようスプレーにて均一に吹き付け接着させた。下層と中層をまず接着させ、その後、上層を接着する手順で行い通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.4Ω、中層の誘電正接は0.007、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Example 4]
The upper layer is a 100 μm PET film in which a silver paste is printed in a grid pattern, the middle layer is a foamed polyethylene having a thickness of 1 mm, the lower layer is a PET cloth plated with copper / nickel, a thickness of 0.15 mm, and a basis weight of 85 g / m 2 . An electromagnetic shielding fabric was used. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. These were adhered by spraying a SBR adhesive (3M spray paste 77 manufactured by Sumitomo 3M Co., Ltd., the same hereinafter) by spraying so that the coating amount was 20 g / m 2 . A communication sheet structure was prepared by first adhering the lower layer and the middle layer, and then adhering the upper layer. The electrical resistance value of the upper conductive part was 0.4Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.007, and the electrical resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
[実施例5]
上層には銀ペーストを格子状にプリントした100μmのポリエチレンナフタレート(PEN)フィルム(帝人デュポンフィルム社製、テオネックスフィルム)、中層には厚さ2mmの低密度ポリエチレン樹脂、下層にはアルミニウムを蒸着させた厚さ10μmのエバールフィルムを使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。これらを、SBR系接着剤を塗布量が20g/m2になるようスプレーにて均一に吹き付け接着させた。下層と中層をまず接着させ、その後、上層を接着する手順で行い通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.4Ω、中層の誘電正接は0.009、下層の電気抵抗値は0.8Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Example 5]
The upper layer is a 100μm polyethylene naphthalate (PEN) film (Teonex Film, manufactured by Teijin DuPont Films) with a silver paste printed in a grid, the middle layer is a low-density polyethylene resin with a thickness of 2mm, and the lower layer is aluminum. An eval film having a thickness of 10 μm was used. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. These were adhered by spraying the SBR-based adhesive uniformly with a spray so that the coating amount was 20 g / m 2 . A communication sheet structure was prepared by first adhering the lower layer and the middle layer, and then adhering the upper layer. The electric resistance value of the upper conductive portion was 0.4Ω per 1 m 2 , the dielectric tangent of the middle layer was 0.009, and the electric resistance value of the lower layer was 0.8Ω. When the upper layer was adhered, the printed surface was adhered.
[比較例1]
上層には銀ペーストを格子状にプリントした25μmのPETフィル、中層には厚さ1mmの発泡ポリエチレン、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛を使用した。上層の格子形状は、線幅が0.5mm、線間隔が15mmであり、導電部比率は7%である。まず、中層の両面にアクリル系粘着剤を付着量が各面10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり1.2Ω、中層の誘電正接は0.007、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Comparative Example 1]
The upper layer is a 25 μm PET film in which a silver paste is printed in a lattice pattern, the middle layer is a foamed polyethylene having a thickness of 1 mm, the lower layer is a PET cloth plated with copper / nickel, the thickness is 0.15 mm, and the basis weight is 85 g / m 2 . An electromagnetic shielding fabric was used. The lattice shape of the upper layer has a line width of 0.5 mm, a line interval of 15 mm, and a conductive part ratio of 7%. First, an acrylic pressure-sensitive adhesive was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 on each surface. Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electric resistance value of the upper conductive part was 1.2Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.007, and the electric resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
[比較例2]
上層には銀ペーストを格子状にプリントした400μmのPETフィルム、中層には厚さ1mmの発泡ポリエチレン、下層にはPET布帛に銅・ニッケルをメッキした電磁波シールド布帛を使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。まず、中層の両面にアクリル系粘着剤を付着量が10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.4Ω、中層の誘電正接は0.007、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
[Comparative Example 2]
A 400 μm PET film in which a silver paste is printed in a grid pattern is used for the upper layer, a foamed polyethylene film having a thickness of 1 mm is used for the middle layer, and an electromagnetic shielding fabric in which copper and nickel are plated on the PET fabric is used for the lower layer. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. First, an acrylic pressure-sensitive adhesive was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 . Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electrical resistance value of the upper conductive part was 0.4Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.007, and the electrical resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
[比較例3]
上層にはステンレス繊維を格子状に織り込んだ厚さ300μm、目付200g/m2のポリエチレンテレフタレート(PET)織物、中層には厚さ2mmの低密度ポリエチレン樹脂、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛を使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。これらを、SBR系接着剤を塗布量が20g/m2になるようスプレーにて均一に吹き付け接着させた。下層と中層をまず接着させ、その後、上層を接着する手順で行い通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり1Ω、中層の誘電正接は0.009、下層の電気抵抗値は0.05Ωであった。
上層の織物に使用したステンレス繊維は、ベカルト東綱メタルファイバー社製で、繊度2,200デシテックス、PET繊維は帝人ファイバー社製「テトロン」で、繊度280デシテックス。経にPET繊維14本毎にステンレス繊維を2本の繰り返しとし、緯はPET繊維12本毎にステンレス繊維2本の繰返しとした。
[Comparative Example 3]
The upper layer is a polyethylene terephthalate (PET) woven fabric with a thickness of 300 μm and a basis weight of 200 g / m 2 , stainless steel fibers are woven in a lattice shape, the middle layer is a low-density polyethylene resin with a thickness of 2 mm, and the lower layer is copper / nickel on the PET fabric. A plated electromagnetic shielding cloth having a thickness of 0.15 mm and a basis weight of 85 g / m 2 was used. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. These were adhered by spraying the SBR-based adhesive uniformly with a spray so that the coating amount was 20 g / m 2 . A communication sheet structure was prepared by first adhering the lower layer and the middle layer, and then adhering the upper layer. The electrical resistance value of the upper conductive portion was 1Ω per 1 m 2 , the dielectric tangent of the middle layer was 0.009, and the electrical resistance value of the lower layer was 0.05Ω.
The stainless steel fiber used for the upper layer fabric is Bekato Tosuna Metal Fiber Co., Ltd., with a fineness of 2,200 dtex, and the PET fiber is Teijin Fibers Co., Ltd. “Tetron” with a fineness of 280 dtex. After that, two stainless fibers were repeated for every 14 PET fibers, and two stainless fibers were repeated for every 12 PET fibers.
[比較例4]
上層には銀ペーストを格子状にプリントした100μmのPETフィルム、中層には厚さ3mmの低密度ポリエチレン樹脂、下層にはPET布帛に銅・ニッケルをメッキした厚さ0.15mm、目付85g/m2の電磁波シールド布帛を使用した。上層の格子形状は、線幅が1mm、線間隔が7mmであり、導電部比率は16%である。まず、中層の両面にアクリル系粘着剤を付着量が各面10g/m2となるようにテーブルコーターにて塗布した。その後、上層と中層をカレンダー加工機にて接着させ、最後に下層をカレンダー加工機にて接着させ通信用シート構造体を作製した。上層の導電部の電気抵抗値は1m2あたり0.4Ω、中層の誘電正接は0.01、下層の電気抵抗値は0.05Ωであった。上層を接着させる時は、プリント面を接着させるようにした。
実施例1〜5、比較例1〜4のシート構成、通信評価結果を表1に記載した。
[Comparative Example 4]
The upper layer is a 100 μm PET film printed with a silver paste in a grid pattern, the middle layer is a low-density polyethylene resin with a thickness of 3 mm, the lower layer is a PET cloth plated with copper and nickel, a thickness of 0.15 mm, and a basis weight of 85 g / m 2 electromagnetic shielding fabric was used. The lattice shape of the upper layer has a line width of 1 mm, a line interval of 7 mm, and a conductive part ratio of 16%. First, an acrylic pressure-sensitive adhesive was applied to both surfaces of the middle layer with a table coater so that the adhesion amount was 10 g / m 2 on each surface. Thereafter, the upper layer and the middle layer were adhered by a calendering machine, and finally the lower layer was adhered by a calendering machine to produce a communication sheet structure. The electric resistance value of the upper conductive part was 0.4Ω per 1 m 2 , the dielectric loss tangent of the middle layer was 0.01, and the electric resistance value of the lower layer was 0.05Ω. When the upper layer was adhered, the printed surface was adhered.
Table 1 shows the sheet configurations and communication evaluation results of Examples 1 to 5 and Comparative Examples 1 to 4.
通信評価結果:
○・・・通信可能
×・・・一部或いは全部通信不可能
Communication evaluation results:
○ ・ ・ ・ Communication × ・ ・ ・ Partial or complete communication impossible
本発明の通信用シート構造体は、周波数が800MHzから5GHzの周波数帯で2次元での通信が可能であるだけでなく、持ち運びによる表面品位の低下が少なく、耐久性にも優れている。このため、テーブル、机、棚などの天板の上で使用するに通信用シート構造体として有用である。 The communication sheet structure of the present invention is not only capable of two-dimensional communication in the frequency band of 800 MHz to 5 GHz, but also has little deterioration in surface quality due to carrying and excellent durability. For this reason, it is useful as a communication sheet structure for use on top plates such as tables, desks, and shelves.
Claims (6)
上層:導電性能を有する層であり、該層には導電部と非導電部が存在し、該導電部の割合が8%から45%であり、導電部が完全に途切れることなく連続し、導電部の電気抵抗値が1m2あたり5Ω以下である層。
中層:周波数800MHzから5GHzにおける誘電正接が0.01以下である層。
下層:全面に導電性を有し、1m2あたりの電気抵抗値が1Ω以下である層。 On the top plate, comprising a sheet structure composed of at least the following upper layer, middle layer and lower layer, the sheet structure having a thickness of 3.0 mm or less, and the upper layer having a thickness of 30 μm to 300 μm The communication sheet structure used in this.
Upper layer: a layer having conductive performance, where the conductive portion and the non-conductive portion are present in the layer, the proportion of the conductive portion is 8% to 45%, and the conductive portion is continuous without any interruption. Layer having an electrical resistance value of 5 Ω or less per 1 m 2 .
Middle layer: a layer having a dielectric loss tangent of 0.01 or less at a frequency of 800 MHz to 5 GHz.
Lower layer: a layer having conductivity on the entire surface and having an electric resistance value of 1Ω or less per 1 m 2 .
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WO2009054397A1 (en) * | 2007-10-23 | 2009-04-30 | Itoki Corporation | Table |
JP2009105598A (en) * | 2007-10-23 | 2009-05-14 | Itoki Corp | Signaling top plate |
JP2009217973A (en) * | 2008-03-07 | 2009-09-24 | Teijin Fibers Ltd | Sheet structure for communication, utensil having top plate using it |
JP2011066600A (en) * | 2009-09-16 | 2011-03-31 | Teijin Fibers Ltd | Flexible sheet structure for communication and method of manufacturing the same |
GB2494435A (en) * | 2011-09-08 | 2013-03-13 | Roke Manor Research | Radio communication over a transmission medium using surface waves |
US8797116B2 (en) | 2009-05-14 | 2014-08-05 | Nec Corporation | Surface communication apparatus |
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JP2005322052A (en) * | 2004-05-10 | 2005-11-17 | Hokkaido Technology Licence Office Co Ltd | Ubiquitous system, device connection method, electroconductive cloth, electroconductive clothes and electroconductive wall |
JP2006229641A (en) * | 2005-02-18 | 2006-08-31 | Serukurosu:Kk | Communication apparatus |
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JP2002026568A (en) * | 2000-07-10 | 2002-01-25 | Kumagai Gumi Co Ltd | Sheet material |
JP2003324395A (en) * | 2002-04-26 | 2003-11-14 | Nippon Telegr & Teleph Corp <Ntt> | Equipment for communicating electric field data |
JP2005322052A (en) * | 2004-05-10 | 2005-11-17 | Hokkaido Technology Licence Office Co Ltd | Ubiquitous system, device connection method, electroconductive cloth, electroconductive clothes and electroconductive wall |
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Publication number | Priority date | Publication date | Assignee | Title |
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WO2009054397A1 (en) * | 2007-10-23 | 2009-04-30 | Itoki Corporation | Table |
JP2009105598A (en) * | 2007-10-23 | 2009-05-14 | Itoki Corp | Signaling top plate |
JP4667438B2 (en) * | 2007-10-23 | 2011-04-13 | 株式会社イトーキ | Signal transmission top plate |
JP2009217973A (en) * | 2008-03-07 | 2009-09-24 | Teijin Fibers Ltd | Sheet structure for communication, utensil having top plate using it |
US8797116B2 (en) | 2009-05-14 | 2014-08-05 | Nec Corporation | Surface communication apparatus |
JP2011066600A (en) * | 2009-09-16 | 2011-03-31 | Teijin Fibers Ltd | Flexible sheet structure for communication and method of manufacturing the same |
GB2494435A (en) * | 2011-09-08 | 2013-03-13 | Roke Manor Research | Radio communication over a transmission medium using surface waves |
US9337895B2 (en) | 2011-09-08 | 2016-05-10 | Roke Manor Research Limited | Electromagnetic surface wave guiding medium having a first surface with coupling nodes repositionable at arbitrary locations |
GB2494435B (en) * | 2011-09-08 | 2018-10-03 | Roke Manor Res Limited | Apparatus for the transmission of electromagnetic waves |
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