201026218 六、發明說明: 【發明所屬之技術領域】 本發明係關於遮蔽電磁波的電磁遮蔽面板,尤關於在 30MHz〜2GGHz左右的頻賴域具有高電磁減雜的電磁遮蔽 面^。再者,本發明係關於利用電磁遮蔽面板構成的窗構件、構 造物、電磁屏蔽室及電磁屏蔽箱。 【先前技術】 專利^獻1械不遮蔽電磁㈣電磁遮蔽面板。專利文獻】 蔽面板,包含:2片破璃板,中隔間隔件而相向配置;透 二¥電膜’形成在玻璃板之相向面上;以及導電性被紐,設於 玻璃板的邊緣部分並與透明導電膜電性連接。 、 (先前技術文獻) (專利文獻) 專利文獻1 :曰本實開平3_83996號公報 【發明内容】 (發明所欲解決之問題) -電磁遮蔽面板在寬頻區域具有充分的細 此° ^ ’ it電磁遮蔽面板無法實現此種遮蔽性能。 所以,本發明目的在於提供具有良好 有充分遮·能之電磁珊面板。 ⑦且在見頻&域: (解決問題之方式) 本發明的一態樣係提保電磁遮蔽面板,就第1 板而言,,包含一對遮蔽板與邊緣連接用件種電磁杨 該遮敝板各自包含:絕緣板,具有第i主 個邊緣,、並具有可見光透光性;高頻電磁遮蔽 頻率區域具有電磁遮蔽功能,並以至少覆蓋嗲 、 置;以及低_磁麵餅,在鱗低切顿域脑電磁^ 201026218 巧此,並以至少覆蓋該第2主面的方式配置;_ 、、 蔽構,與該低頻電顧蔽構件其巾之—覆麵絕緣電磁遮 ;邑、^^^5_、,= = ~ : 遮蔽構件包k該 緣連翻導1構件,使得全部雜高_麵祕杜芬 紐齡,械—舰雜财⑽輕晴物^ 面板:就第2種電磁遮蔽 ❹ 參 该相對向之頻率區域與該相對低之頻率區域,有部八 。 本發明一其他態樣係提供電磁遮蔽面板, 稽刀 面板而言,係如第!或第2種電磁遮蔽面板,其_磁遮蔽 §亥低頻電磁遮蔽構件,係導電網狀構件, 近的========触置錄除該邊緣附 其他態獅提供電魏蔽面板,就第4種電磁遮蔽 面板而S,係如第1至第3種電磁遮蔽面板之中任一者,豆中 絕緣板具有80°/。以上的可見光透光率。 八^ 本發月其他態樣係提供電磁遮蔽面板,就第5種電磁遮蔽 面板=二’係如第4種電磁遮蔽面板,其中該絕緣板係玻璃板。 本f明了其他態樣係提供電磁遮蔽面板,就第6種電磁遮蔽 面,而:,係如第1至第5種電磁遮蔽面板之中任一者,其中該 遮蔽板係互相分離配置在與該第1主面及該第2主面垂直的方向。 本f明了其他態樣係提供電磁遮蔽面板’就第7種電磁遮蔽 面板而言,如第-6種電磁遮蔽面板_,.其中更包含被夹捧禮1 被爽持體受醜—對遮蔽板絲,且至少包含i #具有可見光透 光性的被夾持絕緣板。 本,明了其拖·態樣孫提展電邀»面嚴,就第遮霞 面板而§,係如第7種電磁遮蔽面板,其中, 該被失持體’更包含安裝在該被夾持絕緣板的被夾持高頻電 201026218 磁遮;及,皮夾持低頻電磁遮蔽構件, 杜ί持馬頻電磁遮蔽構件及/或該被夾持低頻電磁一 件’全部連接到該邊緣連接用導電構件。 领電磁遮蔽揭 而;明:其他態樣係提供電磁遮蔽面板,就第9種泰磁危 如第1至第8種電磁遮蔽面板之中任蔽 蔽構件’係由具有齡χ上可見光透光率⑽ 面板i;=.=提供電磁遮蔽面板,就第】〇種電嵫遞較 化銦膜、氧化鋅膜、氧化錫膜之中任一者。 、係包含氣 而如ίϊ明:其他態樣係提供電磁遮蔽面板,就第11種電磁、舟兮 =電磁遮蔽構件’係由具有_以上可見光透光率 而把ίί日月—其他態樣係提供電磁遮蔽面板,就第12姆磁μ 面板而吕,係如第11種電磁遮蔽面板,財 ,電磁遮歧 薄臈與絕緣則之疊賴構^ /、中料電膜片係由導電 其他祕雜供電魏蔽面板,就S 13種電磁 面板而吕,係如第12種電;^遮蔽面板,其中,㈣磁遮蔽 該導電薄膜,係氧化銦錫膜, ^ PET^lene ^ A發明一其他態樣係提供窗構件,就第1種窗構件而A〆 匕3第1至第13種電磁遮蔽面板之中任一者,以及窗框。5,係 —本發明一其他態樣係提供窗構件,就 丄 =:種窗構件,其中該邊緣連導電構件與 ^發明一其他態樣係提供窗構件,就第3種窗構样而士, =2種窗構件,其中更包含用來調整該邊緣連接用^ = 該固框之間接觸壓的壓力調整機構。 電構件與 201026218 本發明一其他態樣係提供構造物,就構造 士少 至第3種窗構件之中任-者,且該構造物内部具係包含第1 ^發明-其他態樣係提供包含上述構造物“=。 本發明-其他態樣係提供包含上述構造物蔽至。 (發明之效果) 電磁贿箱。 因為利用2片各自包含不同對應頻率之高 低頻電磁遮蔽構件的遮蔽板來構成㈣遮蔽面構件與 區域中得到電磁遮蔽效果。 斤以可在廣頻 又,在各遮蔽板之絕緣體的邊緣以外部位, ,頻電_蔽構件與低頻電磁舰構件分離配置為=== 言,可得到較高的電磁遮蔽效果。 更豐的狀況而 再者’因為在各遮蔽板利用高頻電磁遮蔽構件與 蔽構件包覆絕緣體,可防止電磁波從絕緣體邊緣沒漏。-電遮 其,將2塊轉遮蔽板密合,或將被雜體錄在2塊遮 使得遮蔽㈣沒有空氣層時,可提高電磁遮蔽面ii 身之邙性。所以,在如同窗框的電磁遮蔽面板以外之構項且 有高剛性,因而可達成該類構件的輕量化。 八/、 片另Τ'方面,相較於使2塊相鄰遮蔽板密合的狀況而言,使空 或被,持體巾隔在2塊遮蔽板間,而不使2塊相鄰遮蔽板密 。日守,可得到較高的電磁遮蔽性能。 亦即,將被夹持體夾持在2塊遮蔽板之間, 磁遮蔽性能與高剛性兩者。 【貴施方式】 (實施發明之最佳形態) (第1實施形態) 如圖1所示,本發萌第1實施形態乏電遍遮蔽面发ί00,包含: 1對遮蔽板10 ;被夾持體20,被夾持在遮蔽板10間;邊緣連接用 導電構件30。 201026218 各遮蔽板10包含:絕緣板u,具有第1主面1M及第2主 面11-2與4個邊緣11_3,並具有高可見光透光性;高頻電磁遮蔽 f 13 ’在相對高之頻輕域具有電磁遮蔽功能;低㈣磁遮蔽 構件15,在相對低之頻率區域具有電磁遮蔽功能。 —本實施形態之絕緣板11係由玻璃板構成。但是,本發明不限 定於此’絕緣板11亦可係由例如聚碳酸酯或聚醚碾等具^高可見 光透光性之樹脂構成的板。相較於一般性玻璃板而言,使用由樹 脂構成的板作為絕緣體11,可構成不易破裂且重量^ 萜 面板。另,考慮到視認性,絕緣板η宜具有8G%以上 光率。 高頻電磁遮蔽構件13,以覆蓋絕緣板U之第i主面 方式配置。本實施形態之高頻電磁遮蔽構件13,係由呈弇 透光性的導電薄麟成。就導電薄膜而言,舉例係如& 膜、氧化辞膜、氧化錫膜之中任一者。 乳姻 低頻電磁遮蔽構件15,中隔有黏接層16而覆蓋絕緣板^ 第2主面11-2,並且覆蓋4個邊緣11-3,更延伸到第i主面n 侧’在各邊緣11-3附近連接到而頻電磁遮蔽構件η。夢此,太每 施形態之絕緣板11,成為藉由高頻電磁遮蔽構件13盘 二 «#15 , 11之邊緣11_3附近泡漏。尤其,ϋ示的高頻電磁遮蔽構件盥 低頻電磁遮蔽構件15互相以面進行接觸。相較於例如 二 線接觸或點接觸的狀況而言,使兩者互相面接觸時,_ 的電磁遮蔽特性。在此,本實施形態之低頻電磁遮蔽構寸丨1較J 由導電網狀構件構成,又,低頻電磁遮蔽構件15 、'、 ίΠ:重ί高頻電磁構件13發揮電磁遮蔽效果Si 構成的2塊遮蔽板10,藉由在其間包夾被夾持體20, 而互相分離配置在與絕緣板11之第Γ主面1Ul及第2 2的=。本實施形態之被夾持體2G,僅由被夾持絕 構成。本κ施形態之被夾持絕緣體22係玻璃板。相較於使2塊遮 201026218 相^合’將兩者分離配置,則兩者之間變成 ^電體層存在,因而可提升電磁遮蔽效果。另―方面 =中隔在2塊雜板1G間時’職度上較弱。財實施形態=方 2塊遮蔽板1〇夾持被夾持體20(被夹持絕緣體22)時了可同 持體2〇存遮蔽效果之提升’與被夾 xw 連接用導電構件30,使得全部的高頻電磁遮蔽構件13 ^低頻電麵蔽構件…在—對絕緣板丨丨所有之邊緣脱附近 物理性及電性連接。藉此,高頻電磁舰構 =二及邊緣連接用導電構件3〇全部互相導通。 卿,邊緣連接用導電構件3G係直接面接觸於低頻 电磁遮蔽構件15與高頻電磁遮蔽構件13雙方。藉此,相較於使 ΐίΐί用導電構件3G與低頻電磁遮蔽構件15及/或高頻電磁遮 蔽構件13點接觸或線接觸的狀況而言,可達成電磁遮蔽特性之提 升0 在本實施形悲中’以各遮蔽板JO的絕緣板I〗之第1主面H i 朝向電磁遮蔽面板勘外侧(亦即,以第2主面叫朝向電磁遮蔽 面,100内侧)的方式,配置2塊遮蔽板10。在本實施形態之電磁 遮蔽面板100中,各遮蔽板10係將高頻電磁遮蔽構件G配置到 ❹位於除邊緣11-3附近的邊緣連接用導電構件30之外的最外侧。本 實施形態之低頻電磁遮蔽構件15係由導電網狀構件構成,如將其 =置到位於電磁遮蔽面板100的最外側,則在搬送或安裝電磁g 蔽面板100時,導電網狀構件將有可能被物體勾拉而破損。對此, 以本實施形態的方式構成而不露出低頻電磁遮蔽構件15,則可防 玄上述低頻電磁遮蔽構件15—之破損。另’為了提高電磁遮蔽面板 100的電磁遮蔽性能,2塊遮蔽板1〇的低頻電磁遮蔽構件(導電網 _________________狀構件)15,在相向配置遮蔽板忉時,宜使低頻電磁遮蔽構件(導 電-获構的顯嚴互相漏:開·。 對照圖2,本實施形態之窗構件200包含約略將上述電磁遮蔽 面板100包夾在窗框12〇的構成。本實施形態之窗框12〇係金屬 201026218 Ϊ側用屏蔽室或屏蔽箱之類的構造物。在窗框120 ㈣砧急:广覆在電磁遮蔽面板綱之絕緣體11的邊緣η·3 亦=,、、接縣電構件3G相接綱部位,設有屏蔽塾>| 11〇。 片彳1〇。《*1框/2〇的内側與電磁遮蔽面板100之間中隔有屏蔽墊 30之電性來使窗框12G與邊緣連接料電構件 用導電埴實 止賴舰連接部分触。亦可使 隙财等,將窗框120與電磁遮蔽面板觸的交界部分 所要i的各墊片110或窗框12〇的材質等等,只要依據 參 ㈣宜騎即可,並無制限定。職框120 遮蔽面板1〇〇而構成窗構件2〇〇日夺,使用變彳旱玄层, 安裝作業輸送所需的勞力。此外,提高板 100的剛性,變得較不易破損。 ’低 t此構成的窗構件施安裝在例如屏蔽 構[Technical Field] The present invention relates to an electromagnetic shielding panel for shielding electromagnetic waves, and more particularly to an electromagnetic shielding surface having a high electromagnetic impurity in a frequency domain of about 30 MHz to 2 GGHz. Furthermore, the present invention relates to a window member, a structure, an electromagnetic shielding room, and an electromagnetic shielding box which are constructed using an electromagnetic shielding panel. [Prior Art] The patent does not shield the electromagnetic (4) electromagnetic shielding panel. Patent document] The cover panel comprises: two pieces of glass plate, which are arranged opposite to each other with a spacer spacer; a transparent film formed on the opposite side of the glass plate; and a conductive bead disposed at an edge portion of the glass plate And electrically connected to the transparent conductive film. (Prior Art Document) (Patent Document) Patent Document 1: Japanese Patent Application Laid-Open No. Hei No. Hei No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. 3-83996 (Invention) [Electromagnetic shielding panel has sufficient fineness in a wide frequency region. The shielding panel cannot achieve such shielding performance. SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide an electromagnetic panel having good coverage. 7 and in the frequency & field: (the way to solve the problem) One aspect of the present invention is to protect the electromagnetic shielding panel, and in the case of the first panel, the pair of shielding plates and the edge connecting members are electromagnetically Each of the concealing plates comprises: an insulating plate having an i-th main edge and having visible light transmissivity; the high-frequency electromagnetic shielding frequency region has an electromagnetic shielding function, and at least covering the crucible, and the low-magnetic surface cake, In the scale low-cut field brain electromagnetic ^ 201026218 coincidence, and at least cover the second main surface of the way; _,, shielding, and the low-frequency electric shielding member of the towel-cover insulation electromagnetic shielding; , ^^^5_,, = = ~ : The shielding member package k the edge of the flanged 1 member, so that all the high _ face secret Dufen New Year, the weapon - ship miscellaneous wealth (10) light and clear ^ panel: on the second The electromagnetic shielding 参 refers to the relative frequency region and the relatively low frequency region, and has a portion eight. Another aspect of the present invention provides an electromagnetic shielding panel, and the panel is as described in the first! Or the second type of electromagnetic shielding panel, the magnetic shielding § HI low frequency electromagnetic shielding member, is a conductive mesh member, near ======== touching the edge to the other side of the lion to provide electrical Wei cover panel For the fourth electromagnetic shielding panel, S is one of the first to third electromagnetic shielding panels, and the insulating sheet for beans has 80°/. The above visible light transmittance. Eight other embodiments of this month provide electromagnetic shielding panels, and the fifth electromagnetic shielding panel = two is a fourth electromagnetic shielding panel, wherein the insulating panel is a glass panel. The present invention provides an electromagnetic shielding panel, which is a sixth electromagnetic shielding surface, and is, for example, any one of the first to fifth electromagnetic shielding panels, wherein the shielding panels are disposed apart from each other. The first main surface and the second main surface are perpendicular to each other. This f shows that other aspects provide electromagnetic shielding panels. For the seventh electromagnetic shielding panel, such as the -6th electromagnetic shielding panel _, which also contains the clip-on gift 1 is ugly--shadowed a wire, and at least comprising a sandwiched insulating plate having i# visible light transmittance. Ben, it is clear that its drag-and-drop style Sun Dian exhibition electric invitation » face strict, on the visor panel §, is the seventh electromagnetic shielding panel, wherein the lost body 'is further included in the clamped The high-frequency electric insulation of the insulating plate is 201026218; and the skin is clamped with the low-frequency electromagnetic shielding member, and the micro-frequency electromagnetic shielding member and/or the clamped low-frequency electromagnetic piece are all connected to the edge connection. Conductive member. The electromagnetic shielding is exposed; Ming: Other aspects provide electromagnetic shielding panels, and the shielding elements in the first to eighth electromagnetic shielding panels are the visible light transmission Rate (10) Panel i; =.= provides electromagnetic shielding panel, which is the first one of the indium film, zinc oxide film, and tin oxide film. It contains gas and is like ϊ :: other aspects provide electromagnetic shielding panels, and the eleventh electromagnetic, boat 兮 = electromagnetic shielding member is made of _ above visible light transmittance and ίί日月- Providing an electromagnetic shielding panel, the 12th magnetic μ panel is the eleventh electromagnetic shielding panel, and the electromagnetic shielding is thin and the insulation is laminated. / / The medium electrical film is made of conductive other Miscellaneous power supply Wei cover panel, S 13 kinds of electromagnetic panel and Lu, such as the 12th type of electricity; ^ shielding panel, wherein, (4) magnetic shielding of the conductive film, is an indium tin oxide film, ^ PET^lene ^ A invention one The other aspect provides a window member, any one of the first to thirteenth electromagnetic shielding panels of the first type of window member, and the window frame. 5, a system according to another aspect of the present invention provides a window member, namely: a window member, wherein the edge is connected to the conductive member and the other invention provides a window member, and the third window is configured , = 2 kinds of window members, which further include a pressure adjusting mechanism for adjusting the edge connection with the contact pressure between the solid frames. Electrical component and 201026218. A further aspect of the present invention provides a structure for any of the structure of the structure to the third type of window member, and the internal structure of the structure includes the first embodiment of the invention. The above structure "=. The present invention - other aspects are provided to include the above-described structure. (Effect of the invention) Electromagnetic brigade. Since two shield plates each having a high-low frequency electromagnetic shielding member having a different corresponding frequency are used. (4) The electromagnetic shielding effect is obtained in the shielding surface member and the area. In the wide frequency, outside the edge of the insulator of each shielding plate, the frequency-frequency shielding member and the low-frequency electromagnetic ship component are separated and configured as === A higher electromagnetic shielding effect can be obtained. In addition, in a more abundant situation, it is possible to prevent electromagnetic waves from leaking from the edge of the insulator by covering the insulator with the high-frequency electromagnetic shielding member and the shielding member in each shielding plate. The two turning shields are tightly closed, or they are recorded by the hybrids in two blocks to shield (4) when there is no air layer, which can improve the flexibility of the electromagnetic shielding surface. Therefore, in the electromagnetic shielding like the window frame The structure other than the plate has high rigidity, so that the weight of the member can be achieved. The eight/, the other piece is compared with the case where the two adjacent shielding plates are tightly closed, so that it is empty or The holding towel is separated between the two shielding plates, so that the two adjacent shielding plates are not dense. The Japanese shielding can obtain high electromagnetic shielding performance. That is, the clamped body is clamped on the two shielding plates. Between the magnetic shielding performance and the high rigidity. [The preferred embodiment of the invention] (First embodiment) As shown in Fig. 1, the first embodiment of the present invention 0000, comprising: a pair of shielding plates 10; the clamped body 20 is sandwiched between the shielding plates 10; and the edge connecting conductive members 30. 201026218 Each shielding plate 10 includes: an insulating plate u having a first main surface 1M and The second main surface 11-2 and the four edges 11_3 have high visible light transmittance; the high frequency electromagnetic shielding f 13 ' has electromagnetic shielding function in a relatively high frequency light domain; the low (four) magnetic shielding member 15 is relatively low The frequency region has an electromagnetic shielding function. - The insulating plate 11 of the present embodiment is composed of a glass plate. It is to be understood that the insulating sheet 11 may be a sheet made of a resin having high visible light transmittance such as polycarbonate or polyether. Compared with a general glass sheet, a resin is used. The plate can be used as the insulator 11 to form a panel which is not easily broken and has a weight. Further, in consideration of visibility, the insulating plate η preferably has an optical ratio of 8 G% or more. The high-frequency electromagnetic shielding member 13 covers the ith main surface of the insulating plate U. The high-frequency electromagnetic shielding member 13 of the present embodiment is made of a conductive thin film which is transparent to light. For the conductive film, for example, any of the & film, oxidized film, and tin oxide film is used. The friable low frequency electromagnetic shielding member 15 has an adhesive layer 16 covering the insulating plate ^2 main surface 11-2, and covers 4 edges 11-3, and extends to the i-th main surface n side 'in each The vicinity of the edge 11-3 is connected to the frequency electromagnetic shielding member η. Dreaming of this, the insulating plate 11 of each form is made to be bubbled near the edge 11_3 of the high-frequency electromagnetic shielding member 13 by the second layer «#15,11. In particular, the illustrated high frequency electromagnetic shielding member 低频 low frequency electromagnetic shielding members 15 are in surface contact with each other. The electromagnetic shielding characteristics of _ when the two are brought into face contact with each other as compared with, for example, a two-wire contact or a point contact. Here, the low-frequency electromagnetic shielding structure 本1 of the present embodiment is composed of a conductive mesh member, and the low-frequency electromagnetic shielding member 15 and ', Π: the high-frequency electromagnetic member 13 exhibits an electromagnetic shielding effect Si. The block shielding plate 10 is disposed apart from the second main surface 1U1 and the second portion of the insulating plate 11 by sandwiching the sandwiched body 20 therebetween. The adherend 2G of the present embodiment is configured to be sandwiched only. The sandwiched insulator 22 of the present invention is a glass plate. Compared with the two blocks 201026218, the two are separated and disposed, and the electric layer exists between the two, so that the electromagnetic shielding effect can be improved. Another aspect = the middle of the gap between the 2 pieces of 1G between the shelves, the degree is weak. In the case of the two shielding plates 1 , when the object to be clamped 20 is clamped (the insulator 22 is held), the shielding effect can be improved with the holding body 2 and the conductive member 30 for connecting the xw is clamped. All of the high-frequency electromagnetic shielding members 13 ^ low-frequency electric shielding members are physically and electrically connected in the vicinity of all the edges of the insulating sheets. Thereby, the high-frequency electromagnetic hull = two and the edge-connecting conductive members 3 are all electrically connected to each other. The edge-connecting conductive member 3G is in direct contact with both the low-frequency electromagnetic shielding member 15 and the high-frequency electromagnetic shielding member 13. Thereby, the electromagnetic shielding characteristic can be improved in comparison with the condition that the conductive member 3G is in point contact or line contact with the low-frequency electromagnetic shielding member 15 and/or the high-frequency electromagnetic shielding member 13 in the present embodiment. In the middle, the first main surface H i of the insulating plate I of each of the shielding plates JO is disposed so as to face the outer side of the electromagnetic shielding panel (that is, the second main surface is oriented toward the electromagnetic shielding surface, 100 inside). Board 10. In the electromagnetic shielding panel 100 of the present embodiment, each of the shielding plates 10 is disposed such that the high-frequency electromagnetic shielding member G is disposed on the outermost side of the edge-connecting conductive member 30 except for the edge 11-3. The low-frequency electromagnetic shielding member 15 of the present embodiment is composed of a conductive mesh member, and if it is placed at the outermost side of the electromagnetic shielding panel 100, when the electromagnetic shielding panel 100 is transported or mounted, the conductive mesh member will have May be pulled and damaged by the object. On the other hand, in the embodiment of the present embodiment, the low-frequency electromagnetic shielding member 15 is prevented from being exposed, and the low-frequency electromagnetic shielding member 15 can be prevented from being damaged. In addition, in order to improve the electromagnetic shielding performance of the electromagnetic shielding panel 100, the low-frequency electromagnetic shielding members (conductive mesh _________________-like members) 15 of the two shielding plates 1 are preferably arranged with the low-frequency electromagnetic shielding members when the shielding plates are disposed opposite each other. The window member 200 of the present embodiment includes a configuration in which the electromagnetic shielding panel 100 is sandwiched between the window frames 12A. The window frame 12 of the present embodiment is 对照. Metal 201026218 Ϊ side shielded room or shield box and other structures. In the window frame 120 (4) anvil: widely covering the edge of the insulator 11 of the electromagnetic shielding panel η·3 also,,, connected to the county electrical components 3G The matching part is provided with a shielding 塾>| 11 〇. The film 彳1 〇. "The inner side of the *1 frame/2〇 and the electromagnetic shielding panel 100 are separated by the electrical property of the shielding pad 30 to make the window frame 12G The electrical component of the edge connecting material is electrically connected with the connecting portion of the ship, and the material of the gasket 110 or the window frame 12 of the interface between the window frame 120 and the electromagnetic shielding panel is also required. Wait, as long as you can ride according to the reference (4), there is no limit. 120 Shielding the panel 1 〇〇 构成 窗 窗 , , , , , , , , , 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗 窗Window member is installed, for example, shielded
。窗構件200的安裝、組裝方法並無特別限二S Ζϋ;安裝—綱雜其次安裝電磁遮蔽面板 再女裝另一側的窗框120,藉而構成窗構件期。又,亦可 到在電磁遮蔽面板100周緣部安裝有包圍該周緣 邛的形狀之導電框所得之組裝體。 (弟2實施形態) ^顯3,本發明第2實施形態之電磁遮蔽面板施,除被❹ 的構成之外,其餘係與上述第1實施形態之電磁遮蔽 由板100相同。所以,以下僅說明差異之處。 如圖3所示,本實施形態之被夾持體2〇a,係包含 緣體22,由2塊玻璃板構成;以及被爽持高頻電磁遮蔽構件24、、。 絕緣體22 ’並且受到2個被夾持絕緣體22包夾。本實施形能之被 夾持高頻電磁遮蔽構件24係與高頻電磁遮蔽構件13由同二構件 構咸,亦可藉由例如與高頻電磁遮蔽構件U泰為不同材斜呈右 相同功能的構件構成。一〃 此種被夾持體20a ’受到2塊遮蔽板1〇夾持,在周緣部連接 201026218 到邊緣連接用導電構件3〇。在此,如圖所示, 連接用導電構件3〇,不僅與遮蔽板10的高頻電磁m之^ 低頻電磁遮蔽構件15物理性、電性連接,亦盥句人 中的被夾持高頻電磁遮蔽構件24物理性、電、性^接:^Jf、2〇a 持體20a中的被炎持高頻電磁遮蔽構件,亦可更===磁 遮蔽構件由相同構件等構成的被失持低頻電蔽^ n =吏包含在被夾持體施中的被夾持高頻魏遮被= 構緣連接用導電構件30不連接的電性 矛接狀恶。但疋,考慮到尚電磁遮蔽性能,宜如本者 e ❹ 持Ϊ頻電磁遮蔽構件及/或被夾持低頻電磁遮蔽i件2邊缘 ,導電構件30相連接。此外,圖示的被夾持高=磁遮: 件24係與邊緣連接用導電構件3〇線接觸,但是,令被夾持古 =遮蔽構件24之緣部延伸,而使得被祕高頻電磁遮 ^緣連接料電構件3G面觸時,可達献電磁遮蔽特性 提开_。 璃板構成電磁遮蔽面板,即可在欲增加電磁遮蔽 面板全體厚度時使用汎用性高的低成本薄玻螭板。又,由於可嗖 置追加的電磁遮蔽構件(被夾持高頻電磁遮蔽構件2 能成 使電磁遮蔽特性更加提升。 )』運珉 (第3實施形態) 對照圖4,本發明第3實施形態之電磁遮蔽面板腿,除遮 蔽板10b,尤其是高頻電磁遮蔽構件17的構成之外,其餘係與上 述第1實施形態之電磁遮蔽面板1〇〇相同。所以,以下僅說明具 有差異的高頻電磁遮蔽構件17。 ^ 八 本實施形態之高頻電磁遮蔽構件17-,係由導電薄膜18盥絕緣_ 膜片19構成的導電膜片,係在絕緣板u的第丨主面nq 1配置 iiif18’並在其上配置絕緣膜片19。藉由如此使絕緣膜片19 位,侧’可從外部孫護導膜18。1具體而言,本實施形餘 電磁遮蔽構件17,係將絕緣膜片19上具有導電薄膜18形 成的導電膜片,以導電薄膜18與第i主面叫相向的方式配置並 201026218 藉由黏接劑(未圖示)貼合而成。為了達成導電薄膜18與低頻電磁 遮敝構件15或邊緣連接用導電構件30的電性連接,在電磁遮蔽 面板100b的周緣部附近,將導電薄膜18反折而成為外侧。 '、敝 (第4實施形態). There is no particular limitation on the method of mounting and assembling the window member 200; the installation-the second is to install the electromagnetic shielding panel and then the window frame 120 on the other side of the women's wear, thereby forming a window member period. Further, an assembly obtained by attaching a conductive frame having a shape surrounding the peripheral edge to the peripheral portion of the electromagnetic shielding panel 100 may be used. (Embodiment 2) In the electromagnetic shielding panel according to the second embodiment of the present invention, the electromagnetic shielding panel of the second embodiment is the same as the electromagnetic shielding panel 100 of the first embodiment. Therefore, the following only explains the differences. As shown in Fig. 3, the object to be clamped 2A according to the present embodiment includes a body 22 and is composed of two glass plates, and a high-frequency electromagnetic shielding member 24 is provided. The insulator 22' is sandwiched by two sandwiched insulators 22. The clamped high-frequency electromagnetic shielding member 24 and the high-frequency electromagnetic shielding member 13 of the present embodiment are made of the same two members, and can be inclined to the right by the high-frequency electromagnetic shielding member U. Component composition. The holder body 20a' is sandwiched between the two shielding plates 1a, and the front edge portion is connected to 201026218 to the edge connection conductive member 3''. Here, as shown in the figure, the connecting conductive member 3 is not only physically and electrically connected to the low-frequency electromagnetic shielding member 15 of the high-frequency electromagnetic member of the shielding plate 10, but also the clamped high-frequency in the sentence. The electromagnetic shielding member 24 is physically, electrically, and electrically connected: ^Jf, 2〇a The immersed high-frequency electromagnetic shielding member in the holding body 20a may also be more === the magnetic shielding member is composed of the same member and the like The low-frequency electric shield ^ n = 被 is contained in the clamped body, and the clamped high-frequency Wei-shi is replaced by the electrical-connected conductive member 30. However, in view of the electromagnetic shielding performance, it is preferable that the conductive member 30 is connected as the edge of the electromagnetic shielding member and/or the low-frequency electromagnetic shielding member 2 is clamped. Further, the illustrated clamped high = magnetic shield: member 24 is in line contact with the edge-connecting conductive member 3, but the edge portion of the shielded member 24 is extended, so that the high frequency electromagnetic When the 3G surface of the electrical component of the shielding material is connected, the electromagnetic shielding property can be opened. The glass plate constitutes an electromagnetic shielding panel, and it is possible to use a low-cost thin glass plate with high versatility when it is desired to increase the overall thickness of the electromagnetic shielding panel. Further, since the electromagnetic shielding member to be added can be disposed (the high-frequency electromagnetic shielding member 2 can be clamped, the electromagnetic shielding property can be further improved.) (Embodiment 3) Referring to Fig. 4, the third embodiment of the present invention The electromagnetic shielding panel legs are the same as the electromagnetic shielding panel 1A of the first embodiment except for the shielding plate 10b, in particular, the configuration of the high-frequency electromagnetic shielding member 17. Therefore, only the high-frequency electromagnetic shielding member 17 having a difference will be described below. The high-frequency electromagnetic shielding member 17- of the present embodiment is a conductive film composed of a conductive film 18 盥 insulating film 19, which is disposed on the first principal surface nq 1 of the insulating plate u and on which iiif18' The insulating film 19 is disposed. By thus locating the insulating film 19, the side 'is accessible from the outer protective film 18.1 Specifically, the present embodiment forms the conductive film formed of the conductive film 18 on the insulating film 19. The sheet is disposed such that the conductive film 18 is opposed to the i-th main surface and 201026218 is bonded by an adhesive (not shown). In order to achieve electrical connection between the conductive film 18 and the low-frequency electromagnetic concealing member 15 or the edge-connecting conductive member 30, the conductive film 18 is folded back to the outside in the vicinity of the peripheral portion of the electromagnetic shielding panel 100b. ', 敝 (fourth embodiment)
對照圖5 ’本發明第4實施形態之窗構件2〇〇c,係再對於將 上述第1實施形態之電磁遮蔽面板1〇0安裝到窗框12〇的構造: 配置用來調整邊緣連接用導電構件30與窗框12〇之間接觸壓=壓 力調整機構130而成。壓力調整機構130包含金屬板132盥金 製的調整螺絲134。將調整螺絲134壓入,藉而將金屬板132、朝向 電磁遮蔽面板1〇〇推壓,可達成以下所述:即使因為窗框12〇 零,尺寸誤差等衫少造成零件間產生_,亦能適恰調整設 於窗框120的屏蔽墊片110與邊緣連接用導電構件3〇之間的接^ 壓。又,使用此種構成的壓力調整機構13〇,可不須設置會產生 磁波洩漏的開口而進行接觸壓的調整。另,就調整螺絲134而今, 例如可使用開槽固定螺釘(Setscrew)。 σ (第5實施形態) 上述第1實施形態的窗構件200’係嵌入到門或牆壁等處之形 ΪΪΪ構件’對關6,本發明第5實施職之窗構件勘d, 形式的窗構件。詳細而言,本實施形態之窗構件顧,係 將導電框刚安裝到上述第1實施形態之電磁遮蔽面板Θ -右^ 言’在窗框12G設有軌道15G。導電框14G的上下框 此時’屏蔽整片110係以跨過軌道150的方式2此 $的導電框14〇可碟實地與執道15〇電性連接並在執上 二眚,導電框140的左右框亦安裝有屏蔽墊片110,藉此,可 ^ 12G與導電框⑽之間的電性連接。再者,如® 6 ,亦即導電框⑽侧,設: 吏电刷160與導電框14〇相接,可得到確實地電性連接, 12 201026218 而不妨礙到電磁遮蔽面板100與導電框140之滑傾動作。 (第6實施形態) 對圖7 ’本發明之苐6實施形.悲,係將使用上述第1實施形 態之電磁遮蔽面板100的窗構件200 ’應用到具有測量等用封閉办 間310之屏蔽室300。若使用上述窗構件200,可抑制電磁波從電 磁遮蔽面板100、電磁遮蔽面板1〇〇的邊緣部以及窗框12〇等漏 洩,即使在如測量等使用而非常嚴格的要求遮蔽性能時,亦能'因 應。所以,本實施形態之屏蔽室300,可設置相對較大的窗部,而 無損其電磁遮蔽效果。 ° ❹ ❹ (第7實施形態) ^對妝圖8 ’本發明之第7實施形態,係將使用上述第j實施开j 態之電磁遮蔽面板100的窗構件200,應用在具有測量等 間^之屏蔽箱400。依據本發日月,與第6實施形態的 可克I良厭格的遮蔽性能要求,並可賦予屏蔽箱4〇〇視認性。 及第構t的應轉目’並不限跋上述帛6實施形態 mi 發歡冑齡朗糊如智慧型大樓 【實施例】 (實施例1) 董中,係於第1實施形態之電磁遮蔽面板卿,使用 Ϊ用ίΐΐί ;^_罐13,χ,_作為邊緣連 就可使用在高頻電磁遮蔽構件13的導 ,=屬蒸鍍膜或電鑛膜、氧化金_等=類=而\ 充分的娜•了 化騎、氧化顧之糾 只要能達柄縣喊㈣_可,微未, 13 201026218 構成 =電磁遮蔽構件15的導電網狀構件 疋,但山一般常用的不鏽鋼,在耐紐、成本、遮蔽二方面d =¼纖網狀薄板,或將導電性塗料印刷為網狀,亦可得到同产 之嫉Γίίΐΐί貼帶或屏蔽墊片等作為覆蓋電磁遮蔽面板100 可,用導電構件3G,材質只要能確實地導通即 體22就而邑= °,使用厚度3mm的玻璃板’就被夾持絕緣 且魂姑相在盔π 衣面电阻係15Ω·cm。又,使用不鏽鋼製 遮尺寸約1〇_者,作為構成低頻電磁 T^tv 1 mm、的V電網狀構件。使用聚乙烯縮丁醛(Polyvinyl 接^16’ $ 低頻1磁遮親件15黏制絕雜11之黏 各^係5°25叹^絕緣板U及被夾持絕緣體22的玻璃板之大小 TJT^m δ2% 成的高頻電《蔽構 ❹ 狀難與職的玻璃板(絕緣板η)、黏接層16、導電網 導遮蔽構件15)'6mm的玻璃板(被夾持絕緣體22)、 魏遮蔽餅15)、黏接層16、3酿的玻璃板 件二雷:上(高頻電磁遮蔽構件13)。此時,導電網狀構 低頻電磁遮蔽構件ls)從玻璃板(絕緣板u)的邊緣u_3延伸出 電:ί二ϊΐ?成為一體後’將超出的導電網狀構件(侧 件並與氧化錫膜(高頻電磁遮蔽構 30)加⑩全體科用銅貼帶(邊緣連接用導電構件 30,不彳匕才’如圖1所示,銅貼帶之邊緣連接用導電構件 ⑸,折鱗電雜齡(侧麵遮蔽構件 )亦直接接觸導通於高頻電磁遮蔽構件13。 14 201026218 (比較例)Referring to Fig. 5, the window member 2〇〇c according to the fourth embodiment of the present invention is further configured to attach the electromagnetic shielding panel 1〇0 of the first embodiment to the window frame 12A: The contact between the conductive member 30 and the window frame 12 is pressed by the pressure adjusting mechanism 130. The pressure adjusting mechanism 130 includes an adjustment screw 134 of a metal plate 132. Pressing the adjusting screw 134 to push the metal plate 132 toward the electromagnetic shielding panel 1〇〇 can achieve the following: even if the window frame 12 is zero, the size error or the like is less caused by the difference between the parts. The connection between the shield gasket 110 provided in the window frame 120 and the edge connection conductive member 3A can be appropriately adjusted. Further, with the pressure adjusting mechanism 13A having such a configuration, it is possible to adjust the contact pressure without providing an opening that causes magnetic wave leakage. Further, as for the adjustment of the screw 134, for example, a slotted fixing screw (Setscrew) can be used. σ (Fifth Embodiment) The window member 200' of the first embodiment is embedded in a door or a wall or the like, and the window member of the fifth embodiment of the present invention is in the form of a window member. . Specifically, in the window member of the present embodiment, the conductive frame is attached to the electromagnetic shielding panel of the first embodiment, and the rail 15G is provided in the window frame 12G. The upper and lower frames of the conductive frame 14G are now 'shielded by the whole piece 110 to cross the track 150. 2 The conductive frame 14 can be electrically connected to the road 15 并 and the second frame is electrically connected. The left and right frames are also mounted with a shielding spacer 110, whereby an electrical connection between the 12G and the conductive frame (10) is possible. Furthermore, as for the side of the conductive frame (10), the 吏 brush 160 is connected to the conductive frame 14A to obtain a positive electrical connection, 12 201026218 without obstructing the electromagnetic shielding panel 100 and the conductive frame 140. Sliding action. (sixth embodiment) The window member 200' of the electromagnetic shielding panel 100 of the first embodiment is applied to the shield having the closing chamber 310 for measurement, etc. Room 300. When the window member 200 is used, electromagnetic waves can be prevented from leaking from the edge portion of the electromagnetic shielding panel 100, the electromagnetic shielding panel 1A, and the window frame 12, even when the shielding performance is very strict, such as measurement or the like. 'According to. Therefore, the shielded room 300 of the present embodiment can be provided with a relatively large window portion without impairing its electromagnetic shielding effect. ❹ ❹ 第 第 第 第 第 第 第 第 第 第 第 ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' 窗 窗 窗 窗Shielding box 400. According to the present day and the month, it is required to provide the shielding performance of the shielding case 4 in accordance with the shielding performance requirement of the sixth embodiment. And the structure of the t-th structure is not limited to the above-mentioned 帛6 embodiment, and the fascinating building is a smart building. [Embodiment 1] Dong Zhong is the electromagnetic shielding of the first embodiment. Panel qing, use ΐΐ ΐΐ ΐΐ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐 罐Full Na Na Huahua, Oxidation Gu Zhizheng as long as it can Dashi County shout (four) _ can, micro is not, 13 201026218 constitute = electromagnetic shielding member 15 conductive mesh member 疋, but the mountain commonly used stainless steel, in Nana , cost, cover two aspects d = 1⁄4 fiber-like sheet, or printed conductive paint as a mesh, can also get the same production of 嫉Γ ΐΐ ΐΐ ΐΐ 贴 或 屏蔽 或 或 或 或 或 或 或 电磁 电磁 电磁 电磁 电磁 电磁 电磁3G, as long as the material can be reliably turned on, the body 22 is 邑 = °, and the glass plate with a thickness of 3 mm is clamped and insulated, and the soul is in the helmet π. The surface resistance is 15 Ω·cm. Further, a stainless steel cover having a size of about 1 〇 is used as a V-grid member constituting a low-frequency electromagnetic T^tv 1 mm. Use polyvinyl butyral (Polyvinyl connection ^ 16 ' $ low frequency 1 magnetic cover member 15 adhesion noisy 11 adhesion each 5 ° 25 sigh ^ insulation board U and the size of the glass plate holding the insulator 22 TJT ^m δ2% into a high-frequency electricity "covering a difficult-to-use glass plate (insulation plate η), adhesive layer 16, conductive mesh shielding member 15) '6mm glass plate (clamped insulator 22) , Wei masking cake 15), adhesive layer 16, 3 brewed glass plate two Ray: upper (high-frequency electromagnetic shielding member 13). At this time, the conductive mesh-shaped low-frequency electromagnetic shielding member ls) extends from the edge u_3 of the glass plate (insulating plate u) to emit electricity: the integrated conductive mesh member (side member and tin oxide) Membrane (high-frequency electromagnetic shielding structure 30) plus 10 copper tapes for all departments (conducting members 30 for edge connection, as shown in Fig. 1, the conductive members (5) for edge connection of copper tapes, folding scales The mixed age (side shielding member) is also in direct contact with the high-frequency electromagnetic shielding member 13. 14 201026218 (Comparative example)
就比較例而言,製作如圖9所示構成的電磁遮蔽面板1〇〇e。 詳細而言,係各自使用厚度3mm的玻璃作為2片絕緣板n。絕緣 體11的第1主面1M,除端部之外,其餘皆為未被覆蓋的狀態, 絕緣體11的第2主面Π-2 ’利用高頻電磁遮蔽構件13與低頻電 磁遮蔽構件15加以覆蓋。詳細而言,係在第2主面ιι_2上形成高 頻電磁遮蔽構件13,並在其上形成低頻電磁遮蔽構件15。低頻電 磁遮蔽構件15與第1實施形態相同,覆蓋邊緣u_3,且亦覆蓋第 I,主面11-1之邊緣11-3近邊。在此,就高頻電磁遮蔽構件13而言, 係使用一般用來遮蔽玻璃的銀膜。銀膜的表面電阻係2〇Ω · cm, 可見光透光率係53%。又’就低頻電磁遮蔽構件15而言,係使用 與只%例1相同的導電網狀構件。附有高頻電磁遮蔽構件13及低 頻電f遮蔽構件15的絕緣板u,係藉由中隔間隔件4〇而分離配 置。藉此’在絕緣板11間形成6mm厚的空氣層5〇。連接間隔件 40與低頻電磁雜構件15麵馳接層16之材f (聚乙稀縮丁 盤’ PVB)或玻璃板的大小等等,係與前述實施例i相同。 (實施例2) ,貫施例2而言,製作包含有第2實施形態之構造的電磁遮 蔽面板100a。使用的材料係與實施例j大致相同。不同之處,在 =將構成被夾持絕緣體22的_板定為3麵,且數量為2片,以 該2片被夾持絕緣體22中間,再設置氧化錫膜作為被炎持 问頻電磁遮祕件24。其他構成係與上述實i (實施例3) ' ’製作包含有第3實施形態之構造的電磁 杏施/ μ μ^使用的材料天致與實施例1相同。不同處在於, 二艇^ π、^•頻電磁遮蔽構件13 ’替換為可見光透光率81%的 ^導電膜片17包含導電薄膜18與絕緣膜片Μ 阻=ΐ'由絕緣膜片19保護。另,氧化銦錫膜 笔’、 cm。其他構成,係與上述實施例1相同。 15 201026218 ❹ 將使用氧化銦錫膜(導電薄膜18)的導電膜片(高頻電磁遮蔽構 件17)貼設到絕緣板(玻璃板}11。再者,使該導電膜片(高頻電磁遮 蔽構件17)位於最外側,依序疊層導電膜片(高頻電磁遮蔽構件 17)、3mm的玻璃板(絕緣板η)、黏接層16、導電網狀構件(低頻 電磁遮蔽構件15)、6mm的玻璃板(被夾持絕緣體22)、導電網狀構 件(低頻電磁遮蔽構件15)、黏接層16、3mm的玻璃板(絕緣板η)、 導電膜片(高頻電磁遮蔽構件⑺。此時,導電臈片(高 構件17)從玻璃板(絕緣體⑴的邊緣η_3延伸出J 網狀構件(低頻電磁遮蔽構件15)從玻璃板(絕緣板u)的邊緣 延伸出15mm左右。使其全部成為一體後,將超出的導電膜片 頻電磁遮蔽構件Π)往外側彎折,再將超出的導電峨構 往外側彎折,連接到導電膜片(高頻電磁遮蔽構 字此等端緣部全體細銅貼帶(邊緣連接 用導電構件30)覆盍。此時,如圖4所示,銅貼帶之邊 堇直接接觸*通於彎折的導電網狀構件(低頻電磁遮 =構件15) ’亦直接鋪導通於導電膜片(高頻電磁遮 氧化銦錫膜(導電薄膜18)。 再干)之 在圖10所示的測定系統中,測定實施例1〜3及比較例的雷綠 〇 職,1We <電磁遮蔽效果的^ ΐ 在圖11所不的測疋糸統中測定對照値。 詳細而t,係將利用實施例Μ及比較例製 ί,1⑻a、臟、職’如圖2所减入到窗框 7的it ’如圖1G所示’使用安裝有此被測定體作為窗構件 =敝it 接收天線_測定電磁波的電場強度,取得ί “ 3 ’ri磁波來自以夾住被測定體的形式相向的傳送天 '1 圖11所示’在自由空間使傳送天線5〇〇與ίϊϊ 將對照二去電=走3對,。再者, ===方法之日本防衛廳規格^^節^ 16 201026218 ❹ 值 【表1】 水平偏振波 垂直偏振波In the comparative example, an electromagnetic shielding panel 1〇〇e configured as shown in Fig. 9 was produced. Specifically, each of the glass having a thickness of 3 mm was used as the two insulating sheets n. The first main surface 1M of the insulator 11 is uncovered except for the end portion, and the second main surface Π-2' of the insulator 11 is covered by the high-frequency electromagnetic shielding member 13 and the low-frequency electromagnetic shielding member 15. . Specifically, the high-frequency electromagnetic shielding member 13 is formed on the second main surface ι_2, and the low-frequency electromagnetic shielding member 15 is formed thereon. Similarly to the first embodiment, the low-frequency electromagnetic shielding member 15 covers the edge u_3 and also covers the first side, and the edge 11-3 of the main surface 11-1 is close to the side. Here, in the case of the high-frequency electromagnetic shielding member 13, a silver film generally used for shielding glass is used. The surface resistance of the silver film was 2 〇 Ω · cm, and the visible light transmittance was 53%. Further, in the case of the low-frequency electromagnetic shielding member 15, the same conductive mesh member as that of the only example 1 was used. The insulating plate u to which the high-frequency electromagnetic shielding member 13 and the low-frequency electric f shielding member 15 are attached is separated by the spacer spacer 4〇. Thereby, a 6 mm thick air layer 5 is formed between the insulating sheets 11. The connecting spacer 40 and the material f of the low-frequency electromagnetic component 15 are fused to the layer f (polyethylene diced disk PVB) or the size of the glass plate, etc., and are the same as the foregoing embodiment i. (Example 2) According to Example 2, an electromagnetic shielding panel 100a including the structure of the second embodiment was produced. The materials used were substantially the same as in Example j. The difference is that the _ plate constituting the sandwiched insulator 22 is set to three sides, and the number is two, and the two pieces are sandwiched between the insulators 22, and then the tin oxide film is set as the susceptor. The cover member 24. The other structure is the same as that of the first embodiment in the case where the electromagnetic apricot/micron structure including the structure of the third embodiment is produced by the above-described embodiment (Example 3)'. The difference is that the second boat ^ π, ^ frequency electromagnetic shielding member 13 ' is replaced by the visible light transmittance 81% of the conductive film 17 comprising the conductive film 18 and the insulating film ΐ resistance = ΐ 'protected by the insulating film 19 . In addition, indium tin oxide film pen ', cm. Other configurations are the same as those of the above-described first embodiment. 15 201026218 贴 A conductive film (high-frequency electromagnetic shielding member 17) using an indium tin oxide film (conductive film 18) is attached to an insulating plate (glass plate}11. Further, the conductive film (high-frequency electromagnetic shielding) is applied. The member 17) is located at the outermost side, and sequentially laminates a conductive film (high-frequency electromagnetic shielding member 17), a 3 mm glass plate (insulating plate η), an adhesive layer 16, a conductive mesh member (low-frequency electromagnetic shielding member 15), 6 mm glass plate (insulated insulator 22), conductive mesh member (low frequency electromagnetic shielding member 15), adhesive layer 16, 3 mm glass plate (insulation plate η), conductive film (high frequency electromagnetic shielding member (7). At this time, the conductive gusset (high member 17) extends from the edge of the glass plate (the edge η_3 of the insulator (1), the J mesh member (low-frequency electromagnetic shielding member 15), from the edge of the glass plate (insulating plate u) by about 15 mm. After all are integrated, the excess conductive film frequency electromagnetic shielding member Π) is bent outward, and the excess conductive structure is bent outward to be connected to the conductive film (high-frequency electromagnetic shielding frame such edge) The entire thin copper tape (the edge connecting conductive member 30) is covered. As shown in Fig. 4, the edge of the copper tape is directly contacted* through the bent conductive mesh member (low frequency electromagnetic shielding = member 15) 'also directly through the conductive film (high frequency electromagnetic shielding indium tin oxide) In the measurement system shown in Fig. 10, the film (electroconductive film 18) was further measured. In the measurement systems of Examples 1 to 3 and the comparative example, the 1We < electromagnetic shielding effect was not shown in Fig. 11. In the measurement system, the control 値 is determined. In detail, t, the embodiment Μ and the comparative example ί, 1 (8) a, dirty, job 'as shown in Figure 2 is reduced to the window frame 7 it ' as shown in Figure 1G 'Using the object to be measured as the window member = 敝it receiving antenna _ Measure the electric field strength of the electromagnetic wave, and obtain ί " 3 'ri magnetic wave from the transmission day in the form of the object to be measured." In the free space, the transmitting antenna 5〇〇 and ϊϊ ϊϊ will be compared to the second 去 = = 3 pairs, and again, === method of the Japanese Defense Agency specifications ^ ^ section ^ 16 201026218 ❹ value [Table 1] horizontally polarized wave vertical Polarized wave
係顯不所能測定的參考值之最大值,表示衰減量無法超過此 杯:^ 的ί果可知,使用本發明之實施例1〜3的電磁遮蔽面 施例1時,使雜件的厚度尺寸約略相i 在15及高頻電磁遮蔽構件13之數量亦相同。隹 在電磁遮敝性能方面’產生顯著的差異。此翻為,相對=比輕 17 201026218 例中低頻電磁遮蔽構件15與高頻電磁遮蔽構件係重疊而言, 實施例1中係互相分離配置。 又,比較實施例1、實施例2及實施例3的測定結果,可了解 到’有關於電磁波遮蔽性的層之數量增加時,電磁遮蔽性能提升。 例如,比較實施例1與實施例2之測定結果時,可了解到,兩者 之間在較低頻率區域中的電磁遮蔽性能並未產生顯著的差異,但 在較高頻率區域中’相較於實施例1而言,實施例2具有較高電 磁遮蔽性能。再者’在實施例3中可理解,由於表面電阻值較低, 故在高於實施例2的頻率區域中具有更高的電磁遮蔽性能。 以上揭示具體實施例並詳細說明本發明,但本發明並不限定 於上述實施形態或實施例。在不脫離本發明之精神的範圍内, 屬技術領域中具有通常知識者所能思及之各種變形或構 含在本發明之範圍内。 々u 【圖式簡單說明】 圖。圖1係顯示本發明第i實施型態之電磁遮蔽面板的概略剖面 圖2係顯示本發明第1實施型態之窗構件的概略圖。 圖。圖3係顯示本發明第2實施型態之電磁遮蔽面板的概略剖面 圖。圖4係顯示本發明第3實施型態之電磁遮蔽面板的概略剖面 ,5係顯示本發明第4實施型態 整機構之概略剖面圖。 兀一顯不壓力 =示本發明第5實施型態之窗構件的概略圖。 i 8 本發明ί 6實施型態之屏蔽室的概略圖。 ^ 9 本發明第7實施通之屏蔽箱的概略圖。 Ξ 不比較例之電磁遮蔽面板的概略剖面圖。 J1M1 &、說明本發明窗構件之實測値的測定方法。 圖11係說明對照値的測定方法。 201026218 【主要元件符號說明】 10、10b〜遮蔽板 11〜絕緣板(玻璃板) 11-1〜第1主面 11-2〜第2主面 11-3〜邊緣 13〜高頻電磁遮蔽構件(導電薄膜) 15〜低頻電磁遮蔽構件(導電網狀構件) 16〜黏接層 ^ 17〜南頻電磁遮蔽構件(導電膜片) ® 18〜導電薄膜 19〜絕緣膜片 20、20a〜被夾持體 22〜被夾持絕緣體 24〜被爽持南頻電磁遮敝構件 30〜邊緣連接用導電構件 40〜間隔件 50〜空氣層 100、100a、100b、100e〜電磁遮蔽面板 • 110〜屏蔽墊片 120〜窗框 125〜螺絲 130〜壓力調整機構 132〜金屬板 134-調整螺絲—―一一 -The maximum value of the reference value that can not be measured is shown, indicating that the amount of attenuation cannot exceed the thickness of the cup: It can be seen that the thickness of the miscellaneous part is made when the electromagnetic shielding surface of the embodiment 1 to 3 of the present invention is used. The size is approximately the same as the number of the high frequency electromagnetic shielding members 13 at 15 and the same.产生 Significant differences in electromagnetic concealing performance. This is a relative light ratio. In the example, the medium-frequency electromagnetic shielding member 15 overlaps with the high-frequency electromagnetic shielding member, and the first embodiment is disposed apart from each other. Further, by comparing the measurement results of the first embodiment, the second embodiment, and the third embodiment, it is understood that the electromagnetic shielding performance is improved when the number of layers having electromagnetic shielding properties is increased. For example, when comparing the measurement results of Example 1 and Example 2, it can be understood that there is no significant difference in electromagnetic shielding performance between the two in the lower frequency region, but in the higher frequency region For Example 1, Example 2 has a higher electromagnetic shielding performance. Further, it can be understood from Embodiment 3 that since the surface resistance value is low, it has higher electromagnetic shielding performance in a frequency region higher than that of Embodiment 2. The present invention has been described above in detail with reference to specific embodiments, but the invention is not limited to the embodiments or examples. It is to be understood that various modifications or variations of the invention are possible within the scope of the invention. 々u [Simple diagram of the diagram] Figure. Fig. 1 is a schematic cross-sectional view showing an electromagnetic shielding panel according to a first embodiment of the present invention. Fig. 2 is a schematic view showing a window member according to a first embodiment of the present invention. Figure. Fig. 3 is a schematic cross-sectional view showing an electromagnetic shielding panel according to a second embodiment of the present invention. Fig. 4 is a schematic cross-sectional view showing an electromagnetic shielding panel according to a third embodiment of the present invention, and Fig. 4 is a schematic cross-sectional view showing a fourth embodiment of the present invention.兀一显不压 = A schematic view of a window member according to a fifth embodiment of the present invention. i 8 is a schematic view of a shielded room of the present invention. ^ 9 is a schematic view of a shielding box according to a seventh embodiment of the present invention.概要 A schematic cross-sectional view of an electromagnetic shielding panel of a comparative example. J1M1 &; A method for measuring the actual measurement of the window member of the present invention. Fig. 11 is a view showing the measurement method of the control sputum. 201026218 [Description of main component symbols] 10, 10b to shielding plate 11 to insulating plate (glass plate) 11-1 to 1st main surface 11-2 to 2nd main surface 11-3 to edge 13 to high frequency electromagnetic shielding member ( Conductive film) 15~Low-frequency electromagnetic shielding member (conductive mesh member) 16~Adhesive layer^17~Southern frequency electromagnetic shielding member (conductive film) ® 18~conductive film 19~Insulating film 20, 20a~ is clamped Body 22 to clamped insulator 24 to hold south frequency electromagnetic concealing member 30 to edge connection conductive member 40 to spacer 50 to air layer 100, 100a, 100b, 100e to electromagnetic shielding panel • 110 to shielding gasket 120~window frame 125~screw 130~pressure adjustment mechanism 132~metal plate 134-adjustment screw--one-one
140〜導電框 150〜執道 160〜電名|J 200、200c、200d〜窗構件 300〜屏蔽室 19 201026218 310、410〜封閉空間 400〜屏蔽箱 500〜傳送天線 600〜接收天線140~ Conductive frame 150~Empty 160~Electric name|J 200, 200c, 200d~Window member 300~Shielding room 19 201026218 310,410~Closed space 400~Shielding box 500~Transmission antenna 600~Receiving antenna