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    • 1. 发明专利
    • Reflective plate for radar reflector, and radar reflector equipped with the same
    • 用于雷达反射器的反射板和配备有雷达反射器的雷达反射器
    • JP2013239811A
    • 2013-11-28
    • JP2012110355
    • 2012-05-14
    • Zeni Lite Buoy Co Ltd株式会社ゼニライトブイ
    • TOMOI TORU
    • H01Q15/18B63B22/16G01S7/03G01S13/93
    • PROBLEM TO BE SOLVED: To provide a reflective plate for a radar reflector, capable of easily changing the number of reflection directions and fixing them by a simple method, and to provide a radar reflector equipped with the reflective plate.SOLUTION: In a reflective plate 1 for radar reflector, an engaging plate 11 having a prescribed length and an engaged plate 31 are disposed so as to be almost perpendicular to each other, an engaging part 15 projecting toward a back 14 is provided in the vicinity of the tip of the engaging plate 11, on the other hand, an engaged part 35 is provided in the vicinity of the engaged plate 31 by turning it toward a back 34, and the engaging plate 11 is formed so as to be rotatably engaged with the engaged part 35. A radar reflector is formed by combining a plurality of the reflective plates 1. The radar reflector can be formed by combining a plurality of the reflective plates 1, 1 for radar reflector, and a reflection direction can be changed to four to six multi-directions by changing the engagement angle of the engaging part 15 and the engaged part 35.
    • 要解决的问题:为了提供一种用于雷达反射器的反射板,能够通过简单的方法容易地改变反射方向的数量并固定它们,并提供配备有反射板的雷达反射器。解决方案:在反射板 1为雷达反射器,具有规定长度的接合板11和接合板31设置成彼此几乎垂直,在接合部的尖端附近设置有朝向后部14突出的接合部15, 另一方面,板11通过将其转向后部34而设置在接合板31的附近,并且接合板11形成为与被接合部35可旋转地接合。 通过组合多个反射板1形成雷达反射器。雷达反射器可以通过组合用于雷达反射器的多个反射板1,1形成,并且反射方向可以改变为四个到 通过改变接合部分15和接合部分35的接合角度来改变六个多方向。
    • 2. 发明专利
    • Wave surface following type elevation/floating structure
    • 下面的波形表面高度/浮动结构
    • JP2007186028A
    • 2007-07-26
    • JP2006004647
    • 2006-01-12
    • Zeni Lite Buoy Co Ltd株式会社ゼニライトブイ
    • ASO YUJIHASHIMOTO SHINTARO
    • B63B22/18
    • PROBLEM TO BE SOLVED: To provide an elevation/floating structure excellent in wave surface following property by suppressing swing, particularly synchronous swing.
      SOLUTION: When a wavelength in the swinging of a buoy in synchronization with waves is Lwo, (a) the diameter Df of a float 1 is 50 to 70% of the wavelength Lwo, (b) the height Hf of the float 1 is 7 to 8% of the wavelength Lwo, and (c) a freeboard fa of the float 1 is 4 to 6% of the Lwo. If all of the conditions (a) to (c) are satisfied, the best wave surface following property is provided, and the most ideal buoy can be provided.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 要解决的问题:通过抑制摆动,特别是同步摆动来提供波面跟随特性优异的仰角/浮动结构。 解决方案:当波浪同步波动的波长为Lwo时,(a)浮子1的直径Df为波长Lwo的50〜70%,(b)浮子的高度Hf 1为波长Lwo的7〜8%,(c)浮子1的干舷fa为Lwo的4〜6%。 如果满足所有条件(a)至(c),则提供最佳波面跟随特性,并且可以提供最理想的浮标。 版权所有(C)2007,JPO&INPIT
    • 9. 发明专利
    • MANUFACTURE OF LANTERN
    • JPH0644808A
    • 1994-02-18
    • JP19004992
    • 1992-06-23
    • ZENI LITE BUOY CO LTD
    • ASO YUJIARIMURA TADAHIRO
    • F21S2/00G02B3/08F21Q3/00
    • PURPOSE:To facilitate manufacture of a lantern having a large angle of divergence and provide easy perceptivity for any vessel cruising even when the lantern is tilting by dislocating the lens focus from the position of a light source, and enlarging the vertical divergence angle of the emitted light. CONSTITUTION:The light source 3 of an electric bulb 2 lies in the center of the cylinder of a cylindrical lens 1 (having a radius R), wherein the focal distance (f) of the lens is greater than the radius R, and the light source is positioned dislocated from the focus F of the lens. Accordingly the vertical divergence angle of the emitted light becomes greater than when the focal distance (f) is identical with the light source as in any conventional arrangement, and perception of the light is easier even with fluctuation due to waves. The cylindrical lens is of Fresnel type embodied by bending a thin transparent film into a cylindrical form where a fine prism-form Fresnel lens surface is generated, and the lens focus is dislocated from the position of light source by changing the dia. of the cylinder while the focal distance (f) is left unchanged, and thereby the vertical divergence angle of the emitted light can be adjusted over a wide range.