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    • 74. 发明专利
    • DOOR STRUCTURE IN ELECTROMAGNETIC SHIELDING ROOM
    • JPH03290580A
    • 1991-12-20
    • JP9246790
    • 1990-04-07
    • MITSUI CONSTR
    • KUROSAKI YUKIOSATAKE RYOSUKEBABA FUMIHIRO
    • E06B5/18
    • PURPOSE:To secure an excellent shielding effect by clamping both inner and outer doors provided with conductive vinyl rotatably to a metal frame, and making a spatial part formed by the metal frame and the conductive vinyl into more negative pressure than the inside and outside of the room through drive of an exhaust mechanism. CONSTITUTION:One end between an inner door 12 and an outer door 14 is clamped to a metal frame 13, making it rotatable with a hinge 17 as its constitution. The first door 12 and the second door 14 are formed between surrounding frames 15, thereby forming a seal spatial part 18 partitioned off by a conductive vinyl pair, 16, 16, and the metal frame 13, after installing each conductive vinyl 16. Next, this seal spatial part 18 is interconnected to a ventilating fan and a suction tube 21 set up in the room, and this spatial part is made into more negative pressure than a room inside 22 and a room outside 23 through drive of this ventilating fan. With this constitution, air penetrating into the spatial part 18 is exhausted by the suction tube 21, thus fouled air is preventable from penetrating into the room.
    • 75. 发明专利
    • ELECTROMAGNETIC SHIELDING PANEL
    • JPH03136399A
    • 1991-06-11
    • JP20937790
    • 1990-08-09
    • PILKINGTON PLC
    • RESURII TOOMASU KURAAKU
    • B32B17/10E06B5/18H05K9/00
    • PURPOSE: To effectively ground an easily-worn conductive covering by using a transparent abrasion-resistant conductive covering on the main external surface of a first glass plate as a first conductive covering or strongly capacitively coupling the first covering with a second conductive covering. CONSTITUTION: An electromagnetic shielding panel uses different low-emissivity types to covering glass plates for two shielding panels 1 and 2. One type of glass plate is composed, for example, of a transparent float glass plate which is coated with a translucent conductive film, has a thickness of 3-5mm, and is held between reflecting preventing layers 7 and 8 made of metal oxide. The electrical conductivity of the glass varies depending upon the thickness and can be adjusted to an order of 2.5 or 10Ω/cm . When a silver layer having a thickness of at least 15nm is used, a covering having a sheet resistance of 5Ω/cm can be obtained. A preferred covering has a thickness of at least 22.5nm so as to obtain a further lower sheet resistance. As the thickness of the silver layer increases, the cost of covering becomes higher, and the light transmissivity of the covering glass becomes poorer. Therefore, it is preferable to adjust the thickness of the silver layer to
    • 80. 发明专利
    • ALUMINUM FRAME MEMBER FOR ELECTROMAGNETIC SHIELD GLASS PLATE
    • JPH0321783A
    • 1991-01-30
    • JP15635989
    • 1989-06-19
    • SHOWA ALUMINUM CORP
    • OIDE MASAAKI
    • E06B5/18H05K9/00
    • PURPOSE:To secure a current flowing condition with a metal membrane and/or a filler by forming a porous anode oxide membrane to the current flowing contact surface of a frame member with the metal membrane and/or the conductive filler, and filling a conductive metal to the pores. CONSTITUTION:At the whole circumference or at least at the current flowing contact surface of an earth electrode frame 1 which consists of aluminum of a U-shape section with a metal membrane 2a for electromagnetic shield of a glass plate 2 and/or a conductive filler 3, is formed a porous anode oxide membrane (b) furnishing numerous pores (a) whose bottoms are molten to make the uneven coarse surface and a barrier layer is removed practically or made into a very thin layer. Furthermore, in the pores (a) of the membrane (b), a conductive metal (d) is filled. Consequently, not only the anticorrosive and weatherproof properties are improved by the presence of the membrane (b), but also the current flowing condition with the metal membrane 2a and/or the filler 3 is secured by the presence of the conductive metal (d).