TWM241450U - Structure of cellular electromagnetic protection wall - Google Patents

Structure of cellular electromagnetic protection wall Download PDF

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TWM241450U
TWM241450U TW91216704U TW91216704U TWM241450U TW M241450 U TWM241450 U TW M241450U TW 91216704 U TW91216704 U TW 91216704U TW 91216704 U TW91216704 U TW 91216704U TW M241450 U TWM241450 U TW M241450U
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Taiwan
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wall structure
electromagnetic shielding
item
shielding wall
honeycomb
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TW91216704U
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Chinese (zh)
Inventor
Lian-Bi Jang
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Jang Guo Ying
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Description

M241450 本創作所欲解決的問題 正如2002年9月ifin . 報導的,t共的電磁脈衝武器f 2=與聯合報所 通訊設備及積體電路等造成多g的軍事設備、 境中,除了空氣、水mm普及,生活環 們的生存環境造成另一,磁波也將對我 磁波對人體造成傷害,電右免電 要性。 辟敝牖疋有其存在的必M241450 The problem to be solved in this creation is as ifin in September 2002. It is reported that the t pulse electromagnetic weapon f 2 = multi-g military equipment and environment caused by communication equipment and integrated circuits of the United Daily News, except air The popularity of water and water mm has created another environment for the living environment. Magnetic waves will also cause harm to our body. Electricity is free of electricity. To have its own existence

但一般的電磁屏蔽脾细H 形成,或者是金屬網來^成疋y二°卩金屬阻絕體來 是非常繁複的組且:須4用到許多焊接或 w因是固用組 π t合綠色環保的要求。所以本呈 用,符合人性化,士冰人:、、且口谷易,又可再使 間牆板。 付&裱保要求的蜂巢式屏蔽隔 蜂巢隔間板有石膏板、磚牆、木心板或 隔板式隔板、鐵蜂巢式 電磁:屬/Γ,具有導電性能,對 金屬蜂巢式隔板所ί成的= 的 磁波,它的原因如下 牆不月匕元全的屏敝電 (1 些金屬板之間,彼此互相獨立,沒有形成 二= 的迴路’也沒有接地的裝置,導致 匕的屏蔽係數降低。 、、々經本實驗室三年多來的實驗結果顯示, :t ϋ的金屬屏蔽板與有接地的金屬屏蔽 板有20db的屏蔽差異,因此現有的獨立金屬 M241450 屏蔽板並不能夠完全的阻擋電磁波。 (2)現有蜂巢式隔板的製作方式是··將蜂巢式的 通孔中心與板面成垂直90度的夾角,故電磁 波可以沿著孔徑散射進入蜂巢的隔間, 屏蔽效果不佳。 雖α將屏敝層的厚度增加,使它的厚度 大於它的對角線平方相加以後開平方根 = y2>2V,a是孔徑直徑,L是厚度),也 定的屏蔽效果。但它會因厚度增加,使材 成本大幅提高。 taii'於上述種種缺失,本創作人經過多年實驗, &出若:能夠提高屏蔽係數SE,厚度又不增加 施例,來解決這些問題。 、 解決這些問題之方法一: rut ,蜂巢式隔板的結構分為蜂巢本體 j # i、Γ邊f膠層(12 )及兩側最外的裝飾層(15 ), 這裝飾層可為紙層或金屬層。 厚,ϊΐϋ隔板現有的膠層(12)改為導電膠 曰=導電膠層除了黏合結果之外,還有導電功 乂使所有的蜂巢板連成一個等電增 加或提高屏蔽係數。 寸电仅篮 解決這些問題之方法二: 架如把圖它二框,=蜂巢板的四周以導電金屬形成框 層所包裹,A ^ ^使整塊蜂巢板的四周都為金屬 ^晨 备匕跟另外一塊金屬;i直奋S db > κ ^ 密,’造成電性導通,來义力f屏板蔽\觸:,能緊 解決這些問題之方法三: 辱献效果。 來,以屬軌道3°加以钱襄,如此-圖三的3丨、32 ί3 it屬板藉由一些,彎頭,如However, the general electromagnetic shielding spleen H is formed, or a metal mesh is used to form 疋 y 疋 ° 疋. Metal barriers are a very complicated group and: many welding or w must be used because of the solid use group π t and green Environmental requirements. Therefore, this application is in line with humanization. Shi Bing Ren: ,, and Gugu Yi, and then can use the wall panel. The honeycomb shielded partitions with & mounting requirements include gypsum boards, brick walls, wood core boards or partition-type partitions, iron honeycomb electromagnetics: belongs to / Γ, has conductive properties, and is suitable for metal honeycomb partitions. The magnetic wave formed by the plate = is caused by the following reasons: (1) some metal plates are independent of each other, and there is no circuit of '2' nor grounding device, which causes the The shielding coefficient is reduced. The experimental results of this laboratory for more than three years show that: t ϋ metal shielding plate and grounded metal shielding plate have a shielding difference of 20db, so the existing independent metal M241450 shielding plate is not It can completely block electromagnetic waves. (2) The existing method of making honeycomb partitions is to make the center of the honeycomb through hole at an angle of 90 degrees perpendicular to the board surface, so the electromagnetic waves can be scattered along the aperture into the honeycomb compartment. The shielding effect is not good. Although α increases the thickness of the screen layer, making it thicker than its diagonal squares and adding the square root = y2 > 2V, where a is the diameter of the aperture and L is the thickness). effect. However, due to the increase in thickness, the cost of material will increase significantly. taii 'is absent from the above. After many years of experiments, the author has shown that: the shielding coefficient SE can be increased without increasing the thickness of the embodiment to solve these problems. Method one to solve these problems: rut, the structure of the honeycomb partition is divided into the honeycomb body j #i, Γ side f glue layer (12) and the outermost decorative layer (15) on both sides. This decorative layer can be paper Layer or metal layer. Thick, the existing adhesive layer (12) of the diaphragm is changed to conductive adhesive. In addition to the bonding results, the conductive adhesive layer also has a conductive function. All the honeycomb panels are connected into an isoelectric to increase or increase the shielding factor. Inch electric basket only solves these two problems: If the frame is as shown in the figure, the frame is surrounded by a conductive metal to form a frame layer. A ^ ^ makes the entire honeycomb board surrounded by metal ^ Follow another piece of metal; i straight forward S db > κ ^ dense, 'cause electrical continuity, come to the force f screen shield \ touch: the method that can solve these problems tightly 3: Disgrace effect. Come, add Qian Xiang to the orbit 3 °, so -3 丨, 32 in Figure 3 ί3 it belongs to the plate with some, elbows, such as

士-個等電位體,接觸在一:J 蔽效果。 &amp; 用以增加它的屏 3 M241450 解決這些問題之方法四: 如圖四’將蜂巢板的中央孔徑與板面形成一 個傾斜角度,而不是垂直的90度角^如此一來, 當電磁波經過時,因受到適當的阻-,魷不銥亩 接穿過蜂巢板,經過曲徑後,入侵Ϊ磁 將大幅降低。 解決這些問題之方法五: 進一步將兩片51、52或多片蜂巢板的角度成 相反方向鑲嵌在金屬執道上,使其形成一個不連 續的孔洞,來增加它的電磁波屏蔽效果。並且1 衰減之效果大於直接厚度之相加成,因為有介面 之存在,介面反射損失將會大幅提昇有助於屏蔽 解決這些問題之方法六: 縫彼ίί 板,而且這雙層蜂巢板的接 如銅片來增加它的導電密合度,如圖五之f弹$ 防止電磁脈波的直接進入。 τ &lt; “ ’以 解決這些問題之方法七: 道體以接地線連接至大地 把整個導電的結構體及軌 ’來增加它的屏蔽效果。 簡單圖式說明 圖一蜂巢板分解組合圖 圖二 圖三 圖四 圖五 具有導電邊框之蜂巢板正視圖 組合蜂巢隔板之整體結構透視圖 角之蜂巢板其雙層組合側視圖 具有間隙相錯之蜂巢板組合俯視圖 M241450 圖號說明 11 蜂巢本體 12 膠合層 15 裝飾板 20 蜂巢隔板本體 21 導電邊框 22 導電金屬彈片 30 導電導軌 31 二通導柱 32 二通彎柱 33 三通導柱 34 四通導柱 51 傾角蜂巢板 52 另一傾角蜂巢板 本案實施例說明 〈實施例一 &gt; 一般的蜂巢式結構,由圖一可看出是由本體u :、下膠層1 2及外層1 5(這些外層可為紙層或金屬 層)所組成。 、 其導電本體可為鐵蜂巢或是鋁合金金屬蜂巢, 為增加電磁屏蔽效果,最好是用金屬蜂巢為佳。金 屬蜂巢中的鋁蜂巢比較適合高頻(大於300MHz )的 遮蔽。鐵蜂巢適合用於3 0 0MHz以下的長波,因低頻 下磁場穿透效應比較嚴重,由有導磁係數的鐵、鈷、 鎳等材料所組成的金屬,通常有較佳的阻絕效果, 還可在表面鍍辞防銹並增加密合度。為增加整體導 電性,將黏著膠層改用導電膠層,可增加整個金屬 導電層的導電效果。 5 丄VhL叶丄纤;)u 〈實施例二&gt; 屬框1,,T促7整'\蜂電\壁二構2G的四周加上金 接,而ίΠϋ夠和相臨的蜂巢板連成金屬連 加它的導電密合度,如、圖』中之f彈片如銅片來增 &lt;實施例三&gt; 加整性將用金屬轨道槽30來鎮嵌,增 候Li if Λ·的方士便性。當它不使用的時 收再利用# &amp; 匕处繼績使用,增加它的環保回 材質來製做。 -導電槽軌要用導電性良好的 壁時利21:蜂巢狀結構組合成連續 或1面接合角⑶)、轉角(32), 處來將Αΐϊϋ、3】);四通轉角(34)或轉角 此連!連成電氣相導結的-體,再將這 ;ί;的;;電導:以_條導線連接至大地,㈣放 〈實施例四&gt; 言瓶I,巢式結構與板面成垂直時,如圖一,比較 :然、現二沾ί容易沿著孔洞穿過隔間牆的内部。, 孔:直i = 示,當我們把壁的厚度增加到 磁ϊ ;:ϊ開;Γΐί倍以上’能夠吸收若干的電 經濟效應。θ σ予度就等於增加成本,並不符合 獨之ΐΐ: 5Λ案一種技巧,將原來垂直單 因為不同之傾角而有不同程度之衰減, S ί ^ ί 1夺衣減不明顯,角度過大製造時候因為餘 本上升,在〗0至45度時候是不錯之考慮。 —m咐I沾也可將轉一個角度的蜂巢板兩個組合成 個考曲的路徑如51與52之組合,使波更無= M241450 ί接3 =力的ί蔽係數。並且其衰減之效果大於 損= ,因為有介面之存在,介面反射 &lt;'實::;巾广昇有助於屏蔽效果。 夕β 1° f f: 一種隔間板的隔板配置結構的配置, 蜂ί *5 έή i 3 蜂巢板20所組合而成,而且這雙層 :巢縫22此錯開,以防止電磁脈波的直接進 A 在板與板間用金屬彈片如銅片來增 加匕的導電也、合度,如圖五中之22。 表1-An isoelectric body, in contact with one: J shielding effect. &amp; To increase its screen 3 M241450 Method 4 to solve these problems: As shown in Figure 4 ', the central aperture of the honeycomb panel and the surface of the panel form an inclined angle, rather than a vertical 90 degree angle ^ As a result, when electromagnetic waves pass by At this time, due to the proper resistance, the squid is connected to the honeycomb panel, and after the curved path, the invasion of the magnetic field will be greatly reduced. Method 5 to solve these problems: The angle of two 51, 52 or more honeycomb plates is further embedded in the metal channel in opposite directions to form a discontinuous hole to increase its electromagnetic shielding effect. And the effect of 1 attenuation is greater than the addition of direct thickness. Because of the existence of the interface, the interface reflection loss will be greatly improved. It is helpful to shield the solution to these problems. Method 6: Stitching the board, and the connection of this double-layer honeycomb board Such as copper sheet to increase its conductive tightness, as shown in Figure 5 f f $ to prevent direct entry of electromagnetic pulses. τ &lt; "Method 7 to solve these problems: The channel body is connected to the ground with the ground to connect the entire conductive structure and rails" to increase its shielding effect. Simple diagrammatic illustration Figure 1 Honeycomb board exploded combination diagram Figure 2 Figure 3 Figure 4 Figure 5 Front view of a honeycomb panel with a conductive frame. The overall structure of a honeycomb partition. Perspective view of a corner honeycomb panel. Its double-layer combination. Side view of a honeycomb panel with gaps. M241450 Drawing number description 11 Honeycomb body 12 Glue layer 15 Decorative plate 20 Honeycomb partition body 21 Conductive frame 22 Conductive metal dome 30 Conductive guide 31 Two-way guide post 32 Two-way bend post 33 Three-way guide post 34 Four-way guide post 51 Inclined honeycomb panel 52 Another angled honeycomb panel The embodiment of this case illustrates <Example 1> The general honeycomb structure, which can be seen from Figure 1, is composed of the body u :, the lower rubber layer 12 and the outer layer 15 (these outer layers can be paper or metal layers) The conductive body can be iron honeycomb or aluminum alloy metal honeycomb. In order to increase the electromagnetic shielding effect, it is better to use metal honeycomb. Aluminum bees in metal honeycomb It is more suitable for shielding at high frequencies (greater than 300MHz). The iron honeycomb is suitable for long waves below 300MHz. Due to the severe magnetic field penetration effect at low frequencies, metals composed of iron, cobalt, nickel and other materials with magnetic permeability coefficients , Usually has a better barrier effect, can also be plated on the surface to prevent rust and increase the degree of adhesion. In order to increase the overall conductivity, the adhesive layer is changed to a conductive adhesive layer, which can increase the conductive effect of the entire metal conductive layer. 5 丄VhL leaves 丄 fiber;) u <Example 2> belongs to frame 1, and T promotes 7 whole \\ Electricity \ wall two structure 2G with gold connection around, and Πϋ and adjacent honeycomb plate into metal Add its conductive tightness, as shown in the figure, f springs such as copper sheet to increase &lt; Embodiment 3 &gt; The integrity will be embedded with the metal track groove 30, waiting for Li if Λ · When it is not in use, it will be reused. It will be reused after it is used, and it will be made of environmentally friendly materials.-The conductive grooves shall be made of walls with good conductivity. Continuous or 1-sided joint angle (3), corner (32), 将 ΐϊϋ, 3]); four-way corner (34 ) Or the corners are connected! Connected into an electrical phase-connected body, and then this ;;; conductance: connected to the ground with _ wires, put <the fourth embodiment> bottle I, nested structure When it is perpendicular to the board surface, as shown in Fig. 1, comparison: Now, it is easy to pass through the interior of the partition wall along the hole. Hole: Straight i = shown, when we increase the thickness of the wall to magnetic ϊ; : ϊ 开; Γΐί times or more 'can absorb some electrical economic effects. θ σ predecessor is equivalent to increasing costs, which is not in line with the unique: 5Λ case is a technique, the original vertical single because of different inclination angles have different degrees Attenuation, S ί ^ ί 1 The loss of clothing is not obvious. When the angle is too large, the cost will rise because it is more expensive. It is a good consideration when it is 0 to 45 degrees. —M Command I Zhan can also combine the two honeycomb boards that turn at an angle into a test path, such as the combination of 51 and 52, so that the wave is more free = M241450 and 3 = the coefficient of force. And its attenuation effect is greater than loss =, because there is an interface, the interface reflection &lt; 'real :: ;; towel wide rise helps shield effect. Evening β 1 ° ff: a configuration of the partition plate structure of the compartment plate, which is composed of a bee 5 * 5 ル ή i 3 honeycomb plate 20, and this double layer: the nest seam 22 is staggered to prevent the electromagnetic pulse wave Directly enter A. Use metal shrapnel such as copper to increase the conductivity of the dagger between the board and the board, as shown in 22 in Figure 5. Table 1

綜上所述’本案已揭示利用蜂巢板所創作的一 種具有屏蔽係數更高,拆裝方便,組合容易,又可 再使用,符合人性化,也符合環保要求的蜂巢式 蔽隔間牆板,用來增加電磁屏蔽效果。 7In summary, 'This case has revealed that a honeycomb-type sheltered partition wall panel created by using a honeycomb panel has a higher shielding factor, is easy to disassemble, is easy to combine, and can be reused, which meets humanization and environmental protection requirements. Used to increase the electromagnetic shielding effect. 7

Claims (1)

M241450 申請專利範圍 1· 一種蜂巢式電磁屏蔽牆結構,它的特徵是··蜂巢 ,中心$孔方向是與表面方向成1〇度至45度者。 」專利範圍第1項所述之電磁屏蔽牆結構, 這些蜂巢板彼此之間用導電性導軌加以組合。 i ί i ϊ f利範圍第1項所述之電磁屏蔽牆結 構、,這些導電軌道在彎曲之處,彼此以二通、三 四通或彎角來連結,以確保電性連接。 i疒中U f範圍第1項所述之電磁屏蔽牆結構, 線連接至大地,將多餘電荷釋放,以提 兩屏蔽效果。 圍第1項所述之電磁屏蔽牆結構, 在板/、板間用金屬彈片來增加它的導電密合产 磁屏蔽牆結構,它的特徵是,由兩 的”是成-個斜角,且方向不連續的滑 阻隔電磁波。 j /11 Μ令双 7:二申=?圍第6項所述之電磁屏蔽膽結構, 适些蜂巢板彼此之間用導電性導軌加以組合。 8.如申請專利範圍第6項所述之 這些導電轨道在彎曲之處,彼此以二構四 通或彎角來連結,以確保電性連接。 所述之電磁屏蔽牆結構, 高ί蔽;果大地’將多餘電荷釋放,以提 8 M241450 2· 請專利範圍第6項所述之電磁屏蔽牆結 才f,在板與板間用金屬彈片來增加它的導電密合产 Λ 兩 、 巢式電磁屏蔽牆結構,它的符戳是:由 層以上的蜂巢板所組成的隔間牆,這兩層 的接縫係彼此錯開不連續的。 ^2.如-H專《I利範圍第11項所述之電磁屏蔽牆結 構,您二蜂巢板彼此之間用導電性導軌加以組合。 L3.之itt!!範圍第11項所述之電磁屏蔽牆結 構,迫些導電軌道在彎曲之處,彼此以二通、三 四通或弯角來連結,以確保電性連接。 t 項所述之電磁屏蔽牆結 構,、有接也線連接至大地,將多餘雷并經^ 以提高屏蔽效果。 u㈣何釋放’M241450 Patent Application Scope 1. A honeycomb-type electromagnetic shielding wall structure, which is characterized by a honeycomb. The center hole direction is 10 to 45 degrees from the surface direction. The electromagnetic shielding wall structure described in item 1 of the patent scope, these honeycomb panels are combined with each other by conductive guides. i ί i ϊ f The electromagnetic shielding wall structure described in Item 1 above, these conductive tracks are connected to each other with two-way, three-way or four-way corners where they are bent to ensure electrical connection. The electromagnetic shielding wall structure described in item 1 of the U f range in i 疒 is connected to the ground to release excess charge to improve the two shielding effects. Surrounding the electromagnetic shielding wall structure described in item 1, metal plates are used between the plates to increase its conductive and close magnetic shielding wall structure. It is characterized by the combination of two "is an oblique angle, And the direction of the discontinuous sliding block electromagnetic waves. J / 11 ΜOrder double 7: Ershen =? The electromagnetic shielding structure described in item 6 is suitable for the honeycomb boards to be combined with conductive rails. 8. These conductive tracks described in item 6 of the scope of the patent application are connected to each other by a two-way cross or a bent corner to ensure electrical connection at the bending place. The electromagnetic shielding wall structure described above is highly shielded; The excess charge is released in order to improve the electromagnetic shielding wall knot described in item 6 of the patent scope. Use metal springs between the boards to increase its conductive tightness. 2. Nested electromagnetic shields Wall structure, its symbol is: a partition wall composed of honeycomb panels above the level, the seams of the two levels are staggered and discontinuous from each other. ^ 2. Such as -H special "Ili range 11 In the electromagnetic shielding wall structure described above, your two honeycomb panels are conductively conducted between each other. The electromagnetic shielding wall structure described in item 11 of the itt !! scope of L3. Forces these conductive tracks to be bent and connected to each other by two-way, three-way or four-way angles to ensure electrical connection. The electromagnetic shielding wall structure described in item t is connected to the ground with a line and a line, and the excess lightning is passed through to increase the shielding effect.
TW91216704U 2002-10-08 2002-10-08 Structure of cellular electromagnetic protection wall TWM241450U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI403261B (en) * 2007-11-02 2013-07-21 Hon Hai Prec Ind Co Ltd Wireless communication device and electromagnetic shielding apparatus thereof
TWI409377B (en) * 2008-02-19 2013-09-21

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI403261B (en) * 2007-11-02 2013-07-21 Hon Hai Prec Ind Co Ltd Wireless communication device and electromagnetic shielding apparatus thereof
TWI409377B (en) * 2008-02-19 2013-09-21

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