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    • 1. 发明授权
    • Heater and manufacturing method thereof
    • 加热器及其制造方法
    • US5922233A
    • 1999-07-13
    • US793746
    • 1997-03-12
    • Keiichi OhashiTetsuo YamaguchiFumitaka Ishimori
    • Keiichi OhashiTetsuo YamaguchiFumitaka Ishimori
    • H01C1/148H05B3/06H05B3/14H05B3/58H05B3/34H01C3/04
    • H05B3/56H01C1/148H05B3/06H05B3/141H05B3/565H05B2203/02
    • In the case where a heater main body (1) is bent so as to be wound around a subject to be heated such as a water pipe, etc., a heater can stably heats the subject to be heated. A plurality of heating elements (2), which are composed of ceramics as positive-characteristic thermistors and have electrodes on both sides of the heating elements, are sealed along a lengthwise direction of the heater main body (1) with flexibility and electrical insulation at intervals. Pairs of feeders (3) for feeding electricity to the heating elements (2) are provided to the heater main body (1). A holder (5) having electrical conductivity is provided into the heater main body (1) so as to connect the heating elements (2) to the feeders (3) and retain them. The holder (5) reduces faulty electrical connection between the feeders (3) and the heating elements (2), and thus the heat generation by the heating elements (2) can be stabilized.
    • PCT No.PCT / JP95 / 01829 Sec。 371日期1997年3月12日 102(e)1997年3月12日PCT PCT 1995年9月14日PCT公布。 公开号WO96 / 08613 日期:1996年3月21日在加热器主体(1)弯曲以缠绕在诸如水管等加热对象的情况下,加热器可以稳定地加热被加热物。 由陶瓷作为正特性热敏电阻并且在加热元件两侧具有电极的多个加热元件(2)沿着加热器主体(1)的长度方向以柔性和电绝缘方式被密封 间隔 将用于向加热元件(2)供电的供给器(3)的成对设置在加热器主体(1)上。 将具有导电性的保持器(5)设置到加热器主体(1)中,以将加热元件(2)连接到馈送器(3)并保持它们。 保持器(5)减少了给料器(3)和加热元件(2)之间的电连接故障,从而可以稳定加热元件(2)的发热。
    • 2. 发明授权
    • Heater, a method of manufacturing the same, and an anti-condensation
mirror incorporating the same
    • 加热器,其制造方法和结合该加热器的防冷凝镜
    • US5414241A
    • 1995-05-09
    • US55111
    • 1993-05-03
    • Keiichi OhashiYoshinobu OharaFumitaka Ishimori
    • Keiichi OhashiYoshinobu OharaFumitaka Ishimori
    • A47G1/02H05B3/06H05B3/14H05B3/84H05B3/02
    • H05B3/845A47G1/02H05B3/06H05B3/141Y10T29/49083
    • A heater includes a heating element made of a PTC thermistor, electrodes formed on upper and lower surfaces of the heating element, flat metallic terminals connected to the electrodes, lead wires connected to inner surfaces of the metallic terminals that face each other, and an insulating case for covering exposed portions of the heating element, electrodes, and of the metallic terminals, and the connections between the lead wires and the metallic terminals. With this structure, since no bumps are produced on the outer surfaces of the metallic terminals by connecting the lead wires to the metallic terminals, the thickness of the insulating case over the metallic terminals is reduced. This allows a reduction in the thickness of the heater and an improved heat transfer between the heating element and the heated object. A method of manufacturing the heater includes the steps of forming a heating unit by connecting the flat metallic terminals to the electrodes and connecting the lead wires to the metallic terminals, disposing the heating unit on a predetermined position of the base section of the insulating case, and sealing the exposed portions of the heating unit in the insulating case by injection-molding a cover section of the insulating case with insulating material after disposing the base section in a mold. This method enables the heating unit to be easily covered with the insulating case, thereby facilitating the manufacture of the heater.
    • 加热器包括由PTC热敏电阻制成的加热元件,形成在加热元件的上表面和下表面上的电极,连接到电极的平坦金属端子,与金属端子彼此面对的内表面连接的引线,绝缘 用于覆盖加热元件,电极和金属端子的暴露部分的外壳以及引线与金属端子之间的连接。 利用这种结构,通过将引线连接到金属端子,在金属端子的外表面上没有产生凸块,金属端子上的绝缘壳体的厚度减小。 这允许减小加热器的厚度并改善加热元件和被加热物体之间的热传递。 制造加热器的方法包括以下步骤:通过将扁平金属端子连接到电极并将导线连接到金属端子来形成加热单元,将加热单元设置在绝缘壳体的基部的预定位置上, 并且在将基座部分设置在模具中之后,通过用绝缘材料注射成型绝缘壳体的盖部分来将绝热壳体中的加热单元的暴露部分密封。 该方法能够使加热单元容易地被绝缘壳体覆盖,从而有助于加热器的制造。
    • 5. 发明授权
    • Cassette loading mechanism
    • 纸盒装载机构
    • US4992894A
    • 1991-02-12
    • US370335
    • 1989-06-22
    • Keiichi Ohashi
    • Keiichi Ohashi
    • G11B15/675G11B25/06
    • G11B15/67565G11B15/67547G11B25/066
    • A cassette loading mechanism for a magnetic recording/reproducing device is disclosed, in which two different cassettes can be loaded selectively. Two inserting openings, profiled to conform to a large size cassette and a small size cassette, are provided in a cassette control unit. The large size cassette, when introduced, is held by a slider. This slider is movable between a position of insertion and a position of recording and/or reproduction. The small size cassette inserted into the unit is held by an adapter chassis. This adapter chassis is movable by the medium of the loading chassis, between a position of insertion and a position of recording/reproduction. The adapter chassis may be attached to the slider. A lid is mounted to the unit for rotation for opening or closing the inserting opening for the large size cassette. Locking levers for engaging with the lid are provided at both end edge portions of the lid. This locking lever releases the locking of the lid only when the large size cassette is introduced. The lid is opened only when the large size casseette is introduced via the inserting opening for the large size cassette.