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    • 7. 发明申请
    • SWAGING STRUCTURE
    • 取代结构
    • US20160131284A1
    • 2016-05-12
    • US14926374
    • 2015-10-29
    • Kabushiki Kaisha Saginomiya Seisakusho
    • Kenichi MatsuyamaSatoshi Miyakawa
    • F16L13/14F16K17/02
    • F16K17/02F16K7/16F16K37/0041F16K37/005
    • The present invention provides a swaging structure having a high pressure resistance strength suitable for a high pressure switch that solves the conventional disadvantages that the swaging for providing an increased thickness causes a manufacturing facility having a larger size or the swaged part having winkles or that a pressure switch finds a difficulty in the adjustment of the swaging margin when the number of diaphragms is changed for example. A swaging structure comprises at least a to-be-swaged member required to have airtightness to a surrounding environment and a swaging member configured to retain the to-be-swaged member by a swaging processing, the swaging member has an annular side wall surrounding the to-be-swaged member to retain the to-be-swaged member after the swaging processing and the swaging structure further includes an annular spacer including therein a penetration hole to be sandwiched between the to-be-swaged member and the annular side wall after the swaging processing.
    • 本发明提供了一种具有适用于高压开关的高耐压强度的型锻结构,其解决了常规的缺点,即用于提供增加的厚度的型锻使得具有较大尺寸的制造设备或具有翘曲的锻压部件或压力 例如,当膜片的数量改变时,开关在调整纵向裕度时发现困难。 模锻结构包括至少要对周围环境具有气密性的待锻造构件和被构造成通过型锻加工来保持待锻造构件的锻模构件,所述模锻构件具有围绕所述锻造构件的环形侧壁 待锻造的构件,用于在锻造加工之后保持待锻造的构件,并且锻造结构进一步包括环形间隔件,其中包括插入待夹紧构件和环形侧壁之间的贯穿孔 模锻加工。
    • 8. 发明申请
    • TEST DEVICE
    • 测试设备
    • US20150323415A1
    • 2015-11-12
    • US14647342
    • 2013-09-05
    • KABUSHIKI KAISHA SAGINOMIYA SEISAKUSHO
    • Eisei INTomohiro HOSAKA
    • G01M7/02
    • G09B9/04F16M11/121F16M11/18F16M11/2085F16M11/2092G01M7/022G01M7/027G01M17/007G09B9/02G09B9/05G09B9/06G09B9/08G09B9/12G09B9/14
    • [Problem] The invention is to provide a test device, that the simulation is possible, in which the angle and the range of the velocity in the direction of Yaw are large, and in which the torque in the direction of Yaw is large, and the range of the accelerated velocity is large, and moreover, in which necessary space is small and in which the test up to a high frequency is possible by small power and in a small space. [Resolution Approach] The test device of the invention characterized in that, a base plate 14 is connected with a movement mechanism 50, which can be moved on a slipping floor in the directions of X-Y, and which is disposed freely and movably to be rotated around Z axis, the movement mechanism 50 is connected pivotally on the base plate 14, such that in the top plan view, when the base plate 14 is positioned at substantially the center of the upper surface of the slipping floor 12 when initial position, the central angle degree β forms 120° mutually according to round circle C, when an extension line at the tip of the movement mechanism 50 is positioned at the initial position, they touch the round circle C or they are provided that they become angling to almost touch the round circle C.
    • 发明内容本发明是提供一种可以进行模拟的测试装置,其中Yaw方向上的速度的角度和范围大,并且Yaw方向上的扭矩大,并且 加速速度的范围大,此外,需要的空间小,能够通过小功率和小的空间进行高频检测。 [分辨率方法]本发明的测试装置的特征在于,底板14与移动机构50连接,移动机构50可以在滑动地板上沿XY方向移动,并且自由移动地设置成旋转 在Z轴周围,运动机构50可枢转地连接在基板14上,使得在顶部平面图中,当初始位置时基板14位于滑动底板12的上表面的大致中心位置时, 中心角度 根据圆形圆C相互形成120°,当移动机构50的尖端处的延伸线位于初始位置时,它们接触圆形圆C,或者它们被设置为几乎接触圆形圆C 。
    • 10. 发明授权
    • Thermostat type operating temperature setting apparatus utilizing
conical compression spring
    • 采用锥形压缩弹簧的恒温器式工作温度设定装置
    • US4794363A
    • 1988-12-27
    • US105032
    • 1987-10-06
    • Shigeru HirataHideyuki YajimaKoichi Takahashi
    • Shigeru HirataHideyuki YajimaKoichi Takahashi
    • H01H37/12H01H35/26H01H37/36
    • H01H35/2614
    • In a thermostat type operating temperature setting apparatus, a slider is employed to preset the operating temperatures of electric appliances by sliding the slider along a long sliding path. The operating temperature setting apparatus includes a frame, a converter for converting temperature changes into pressure variations, a thermostat switching member for selectively changing bistable switching positions in response to the pressure variations, a rod for adjusting the operating temperature, a tension spring coupled between the adjusting rod and the switching member, for biasing the adjusting rod in a first direction, a slider, and a cam lever pivotably journaled to a fulcrum fixed on the frame and connected to the adjusting rod, for being slidably in touch with the slider. The setting apparatus further includes a conical compression spring mounted on the adjusting rod, for biasing the adjusting rod in a second direction opposite to the first direction. Accordingly, the slider is slidable on the long sliding path with the substantially same sliding force over the long sliding path.
    • 在恒温器型工作温度设定装置中,通过滑动器沿长滑动路径滑动来使用滑块来预设电器的工作温度。 工作温度设定装置包括框架,用于将温度变化转换为压力变化的转换器,用于响应于压力变化选择性地改变双稳态切换位置的恒温器切换构件,用于调节工作温度的杆,联接在 调节杆和切换构件,用于沿第一方向偏置调节杆,滑块和可枢转地枢转地固定到框架上并连接到调节杆的支点的凸轮杆,以便滑动地与滑块接触。 设置装置还包括安装在调节杆上的锥形压缩弹簧,用于沿与第一方向相反的第二方向偏压调节杆。 因此,滑块可以在长滑动路径上以大的相同滑动力在长滑动路径上滑动。