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    • 15. 发明授权
    • Method for controlling a bead
    • 珠的控制方法
    • US4827101A
    • 1989-05-02
    • US215024
    • 1988-07-05
    • Yuji SugitaniYoshikazu Sato
    • Yuji SugitaniYoshikazu Sato
    • B23K9/095B23K9/12
    • B23K9/0956B23K9/12
    • A method for controlling a bead, in one-side automatic welding wherein a backing metal strip is adhered to the back side of a pair of work pieces through an inorganic material and arc welding is applied to the work pieces on the surface side thereof, comprises:detecting an electrical signal between the work pieces and the backing metal strip to control a weld current so that the detected electrical signal can be equal to a predetermined reference signal; and detecting the controlled weld electrical current and putting the detected weld electrical current into a formula of V.sub.1 =V.sub.0 .multidot.I.sub.L /I.sub.L0 to calculate a welding speed; and controlling the welding speed in accordance with the calculated welding speed, where V.sub.1 represents the calculated welding speed, V.sub.0 an initial value of the welding speed, I.sub.L the detected weld electrical current and I.sub.L0 a predetermined reference weld current. The electrical signal can be an electrical current signal or a voltage signal.
    • 一种侧面自动焊接方法,其中通过无机材料将背衬金属带粘附到一对工件的背面并进行电弧焊接的一侧自动焊接中,对其表面侧的工件施加一个方法,包括 :检测工件和背衬金属带之间的电信号以控制焊接电流,使得检测到的电信号可以等于预定的参考信号; 并检测受控的焊接电流,并将检测到的焊接电流置于V1 = V0xIL / IL0的公式中以计算焊接速度; 并根据计算的焊接速度控制焊接速度,其中V1表示计算的焊接速度,V0是焊接速度的初始值,IL检测到的焊接电流,IL0是预定的参考焊接电流。 电信号可以是电流信号或电压信号。
    • 16. 发明授权
    • Method of controlling synchronized movement of backing shoe in automatic
one-side welding
    • 控制背板在自动单面焊接中的同步运动的方法
    • US4273987A
    • 1981-06-16
    • US75204
    • 1979-09-12
    • Hirokazu NomuraYukihiko SatoYoshikazu Sato
    • Hirokazu NomuraYukihiko SatoYoshikazu Sato
    • B23K37/06B23K9/035B23K9/12
    • B23K9/0352
    • A method of controlling the synchronized movement of a backing shoe in an automatic one-side welding of the type in which a light-transmittable backing material is placed in close contact with the back surface of the welding joint and a backing shoe adapted to be moved along with the movement of a welding apparatus is pressed through the backing material against the back surface of the welding joint just below a welding electrode whereby effecting the welding. The method employs photoelectric detectors which are embedded in the surface of the backing shoe contacting the backing material at four positions, i.e., right-front, right-back, left-front and left-back positions just below the electrode with respect to the direction of welding and the detectors are arranged at predetermined distances from each other, whereby the light emitted from the back surface of the welding joint and transmitted through the backing material is received by the detectors each of which generates an electric signal corresponding to the received light magnitude and the speed of travel as well as the lateral position of the backing shoe are controlled in such a manner that the below-electrode-point is maintained at a predetermined position among the light receiving positions on the backing shoe.
    • 一种控制背板在自动单面焊接中的同步运动的方法,其中可透光背衬材料与焊接接头的后表面紧密接触并且适于移动的背衬板 随着焊接设备的移动,通过背衬材料压靠在焊接电极正下方的焊接接头的后表面上,从而实现焊接。 该方法采用光电探测器,该光电检测器嵌入在与背衬材料接触的背衬材料的表面中的四个位置处,即相对于方向的电极正下方的右前,右后,左前和后后位置 的焊接和检测器彼此以预定的距离布置,由此从焊接接头的后表面发射并透过背衬材料的光被检测器接收,每个检测器产生对应于接收的光量的电信号 并且以使得下电极点保持在背衬鞋的光接收位置中的预定位置的方式来控制背衬鞋的行进速度以及背板的横向位置。
    • 17. 发明授权
    • Water-cooled four-cycle engine
    • 水冷四冲程发动机
    • US09074514B2
    • 2015-07-07
    • US13011359
    • 2011-01-21
    • Yoshikazu SatoShigeki Edamatsu
    • Yoshikazu SatoShigeki Edamatsu
    • F02F1/40F01P3/02F02F1/00F02F1/14F02B75/02
    • F01P3/02F02B2075/027F02F1/002F02F1/14F02F1/40
    • In a water-cooled four-cycle engine, an engine core including a cylinder block, a cylinder head and a first crankcase half body is formed as a unitary part cast integrally, and a water jacket including a cylinder jacket and a head jacket is formed in the engine core. In a first side surface of the engine core which is parallel with an axis of a crankshaft, an intake port and a first semi-peripheral portion of the water jacket are opened and a first lid plate for closing an opening portion of the first semi-peripheral portion is connected. In a second side surface of the engine core on a side opposite from the first side surface, an exhaust port and a second semi-peripheral portion of the water jacket are opened and a second lid plate for closing an opening portion of the second opposite portion is connected.
    • 在水冷四冲程发动机中,形成有包括气缸体,气缸盖和第一曲轴箱半体的发动机芯体,作为整体铸造的整体部件,并且形成包括气缸套和头套的水套 在发动机核心。 在发动机芯的与曲轴的轴线平行的第一侧表面中,打开水套的进气口和第一半周边部分,并且第一盖板用于封闭第一半圆柱体的开口部分, 外围部分连接。 在发动机芯的与第一侧面相反的一侧的第二侧面上,打开水套的排气口和第二半外周部分,并且第二盖板用于封闭第二相对部分的开口部分 已连接。
    • 18. 发明授权
    • Image management apparatus, image management method, and storage medium
    • 图像管理装置,图像管理方法和存储介质
    • US08606049B2
    • 2013-12-10
    • US12916282
    • 2010-10-29
    • Yoshikazu Sato
    • Yoshikazu Sato
    • G06T1/00
    • G06F17/3028H04N1/32101H04N2201/3205H04N2201/3214H04N2201/3215H04N2201/3245
    • An image management apparatus includes a storage unit configured to compare a difference between stored original image data and image data to which correction is applied, and store differential information resulting from the comparison as new image data, a display unit configured to display a candidate of image data to be output to receive from a user a specification of image data to be output from among a plurality of image data stored in the storage unit, wherein the display unit detects and outputs image data stored in a terminal among image data including the differential information satisfying a condition specified by the user and image data derived by correcting the image data, from among the plurality of image data stored in the storage unit.
    • 一种图像管理装置包括:存储单元,被配置为比较存储的原始图像数据和应用了校正的图像数据之间的差异,并将从比较得到的差分信息存储为新的图像数据;显示单元,被配置为显示图像候选 要从用户接收要从存储在存储单元中的多个图像数据中输出的图像数据的指定的数据,其中显示单元检测并输出存储在终端中的图像数据,所述图像数据包括差分信息 从存储在存储单元中的多个图像数据中,满足由用户指定的条件和通过校正图像数据导出的图像数据。