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    • 3. 发明公开
    • MIXED ELEMENT, DEVICE USING SAME, FLUID MIXING METHOD, AND FLUID
    • 意大利人,VORRICHTUNGEN DAMIT UNDFLÜSSIGKEITSMISCHVERFAHREN
    • EP2826547A1
    • 2015-01-21
    • EP13760917.8
    • 2013-03-08
    • Isel Co., Ltd.
    • MOCHIZUKI Noboru
    • B01F5/00B01F7/00
    • B01F5/0604B01F5/0664B01F5/0679B01F5/104B01F7/00241B01F7/00583B01F7/00633B01F7/00908B01F7/1625
    • A fluid is satisfactorily mixed, satisfactory mixing can be performed even when the flow rate of the fluid is high and suitable utilization in various devices can be realized.
      A stacked member (2) in which a plurality of mixing elements (21 a) are stacked and a first plate (3) and a second plate (4) that sandwich the stacked member (2) are provided. The mixing element (21 a) includes a plurality of first through holes (22) penetrating in a direction of thickness; a fluid is passed between the stacked mixing elements in a radial direction. The first plate (3) and the second plate (4) block the first through holes (22) at both ends of the stacked member in the stacking direction, and thus the flow of the fluid is achieved. The fluid is wound and passed through the first through holes (22), and thus it is possible to perform sufficient mixing.
    • 流体令人满意地混合,即使当流体的流量高,并且可以实现各种装置的适当利用时,也可以进行令人满意的混合。 设置堆叠多个混合元件(21a)的堆叠构件(2)和夹着堆叠构件(2)的第一板(3)和第二板(4)。 混合元件(21a)包括沿厚度方向穿透的多个第一通孔(22) 流体在径向方向上在堆叠的混合元件之间通过。 第一板(3)和第二板(4)在层叠方向的两端封闭第一通孔(22),从而实现流体的流动。 流体被卷绕并通过第一通孔(22),因此可以进行充分的混合。
    • 5. 发明公开
    • Punching apparatus and punching die used therefor
    • Stanzmaschine und Matrizefüreine solche Maschine
    • EP1837140A1
    • 2007-09-26
    • EP06111483.1
    • 2006-03-21
    • Isel Co., Ltd.
    • Mochizuki, Masanori Isel Co., Ltd.Fujii, Yusuke Isel Co., Ltd.
    • B26F1/40B26D1/18
    • B26F1/405B26D1/18B26D1/185B26F2210/02
    • In a punching apparatus comprising: a punching station A for punching a large number of sheet products by a punching die 20 from a long material sheet 1 which is transferred in a horizontal direction; and a take-out station for taking out the sheet product punched by the punching die 20, wherein the punching die 20 has a structure that a blade portion of a tip end peripheral edge of a vertically penetrating die hole is brought into contact with the material sheet 1 under pressure, thereby sequentially punching the sheet products from the material sheet 1 and accommodating the sheet products in the die hole in a laminated state, and the take-out station includes an extrusion pusher for pushing out the sheet products which are accommodated in the laminated state from the die hole 28, the punching die is disposed below a transfer region of the material sheet to prevent the sheet product from falling onto the material sheet 1 from the die hole.
    • 一种冲压装置,包括:冲孔台A,用于通过冲压模具20从沿水平方向传送的长材料片1冲压大量片材; 以及用于取出由冲压模具20冲压的薄片制品的取出台,其中冲孔模具20具有使垂直贯穿的模具孔的前端周边边缘的刀片部分与材料接触的结构 片材1在压力下依次冲压材料片材1的片材产品,并将片材产品以层压的状态容纳在模具孔中,并且取出工位包括用于推出容纳在片材1中的片材产品的挤出推动器 从模孔28,冲压模具的层压状态设置在材料片材的转印区域的下方,以防止片材产品从模孔掉落到材料片材1上。
    • 7. 发明公开
    • Ball screw with ball retainer
    • 滚珠丝杠球保持
    • EP1067315A3
    • 2003-06-04
    • EP00114537.4
    • 2000-07-06
    • ISEL CO., LTD.
    • Mochizuki, Masanori, c/o Isel Co., Ltd.,
    • F16H25/22
    • F16H25/2233
    • A ball screw and a linearly movable apparatus using the ball screw. The ball screw comprises a thread shaft (1), a nut member (2) and a tubular retainer (3) interposed between the thread shaft and the nut member so as to be freely, relatively rotatable in relation to them. The retainer has a plurality of ball retaining holes which are formed so as to correspond with the thread grooves, for retaining the balls in such a manner that the balls are exposed from the inner and outer surfaces of the retainer. The ball retaining holes have such a size as to hold balls (100) in a freely rotatable condition. The outer ends of peripheral walls defining the ball retaining holes face the inside of the thread groove of the nut member. At least the minimum spacing between the outer ends of the peripheral walls is smaller than the diameter of the balls, and the thread shaft (1) is longer than the nut member (2). With the above arrangement, the load sustainable by the nut member in an axial direction can be increased. In addition, the reciprocating linear movement of the nut member can be smoothly performed by the rotation of the thread shaft without formation of a ball return passage in cases where the distance of the linear movement of the nut member is short.