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    • 1. 发明专利
    • Pressing roll and calender roll for paper-making machine and method for pressing band-shaped sheet
    • 造纸机辊压辊压机及带状压片机压花方法
    • JP2007056443A
    • 2007-03-08
    • JP2006319174
    • 2006-11-27
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • SUZUKI SETSUOTANIMOTO TERUBUMIHOSOKAWA SADAFUMI
    • D21G1/02F16C13/00
    • PROBLEM TO BE SOLVED: To provide pressing roll, calender roll for a paper-making machine and a method for pressing a band-shaped sheet and to attain the thin rolling even in the case where the band-shaped sheet has a relatively hard parts on the edge part.
      SOLUTION: In the pressing roll that is equipped with a center shaft 11 that is supported as its rotation is partially restricted, with a cylindrical roll cell 12 that is rotatably arranged around the center shaft 11 and the both ends are rotatably supported to the center shaft 11 and with a plurality of sheet-pressing shoes 15, 21 that is smoothly contacted to the inner peripheral surface of the roll cells 12 arranged in the shaft direction on the center shaft 11. The running band-shaped sheet 1 is nipped between the counter roll and the roll cell 12 mutually opposing each other and the band-shaped sheet 1 is pressed with a plurality of sheet-pressing shoes 15 from the inside of the roll cell 12, among of a plurality of the sheet-pressing shoes 15, 21, the width of the shoes 21 at the positions of the both edges is made wider than that of the other shoe 15 for pressing the sheet.
      COPYRIGHT: (C)2007,JPO&INPIT
    • 待解决的问题:为了提供压辊,造纸机的压延辊和压带带状片材的方法,并且即使在带状片材具有相对的情况下也能获得薄轧 硬部件在边缘部分。 解决方案:在装配有作为其旋转被支撑的中心轴11的按压辊部分地被限制的情况下,通过围绕中心轴11可旋转地布置的圆柱形滚筒12被可旋转地支撑在 中心轴11和与中心轴11上的沿轴向配置的滚筒单元12的内周面平滑地接触的多个压板15,21。行进带状片材1被夹紧 在相对于彼此相对的对位辊和辊单元12之间,并且在多个压板靴中,带状片1从辊单元12的内部被多个压片15压紧 如图15,21所示,在两边缘的位置处的鞋21的宽度比用于按压片材的另一个鞋15宽。 版权所有(C)2007,JPO&INPIT
    • 2. 发明专利
    • Scroll compressor
    • 滚动压缩机
    • JP2006233934A
    • 2006-09-07
    • JP2005053182
    • 2005-02-28
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • NAKADA YONEOYAMAUCHI SEIJITANIMOTO TERUBUMIITO TAKAHIDE
    • F04C18/02F04C23/00F04C29/04
    • PROBLEM TO BE SOLVED: To provide an oil free compressor capable of making the compressor oil free and making displacement large. SOLUTION: In an embodiment, a scroll compressor includes two lines of a first low pressure side lap 62 and a first high pressure side lap 63, includes a turning scroll 42 of which height of the first high pressure side lap is lower than the first low pressure side lap and two lines of low pressure side groove part 68 and high pressure side groove part 69, includes a fixed scroll 41 of which depth of a bottom surface of the high pressure side groove part is shallower than the low pressure side groove part, and is provided with a compression part 31 having a two line two stage construction supplying compressed air compressed by a low pressure stage to a high pressure stage and compressing the same further by the high pressure stage by including the low pressure stage 35 including the low pressure side groove part and the first low pressure side lap positioned in the groove and the high pressure stage 36 including the high pressure side groove part and the first high pressure side lap positioned in the groove, an electric motor 43 turning the turning scroll, an intercooler 32 cooling compressed air discharged from the low pressure stage of the compression part and supplied to the high pressure stage, a cooling fan 33, and a cooling fan inlet side introduction passage 60. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种无油压缩机,能够使压缩机机油无油并使排量大。 解决方案:在一个实施例中,涡旋压缩机包括第一低压侧搭接件62和第一高压侧搭接件63的两条管线,包括第一高压侧搭接件的高度低于 第一低压侧搭接线和两排低压侧槽部68和高压侧槽部69包括固定涡旋盘41,高压侧槽部的底面的深度比低压侧浅 并且具有压缩部件31,该压缩部件31具有两级两级结构,将由低压级压缩的压缩空气供给到高压级,并通过包括低压级35包括低压级35在内的高压级进一步压缩 位于槽中的低压侧槽部和第一低压侧搭接部以及包括高压侧槽部和第一高压侧卷边的高压台36 位于槽内的电动机43,转动涡卷的电动机43,冷却器32,冷却从压缩部的低压级排出的供给到高压级的压缩空气,冷却风扇33和冷却风扇入口侧的导入 通过60.版权所有(C)2006年,JPO&NCIPI
    • 6. 发明专利
    • SHAFT FOR HYDROSTATIC SHOE
    • JP2000291640A
    • 2000-10-20
    • JP9883399
    • 1999-04-06
    • MITSUBISHI HEAVY IND LTD
    • KONO KAZUKIYOTANIMOTO TERUBUMINAKANO KIYOSHITANIGUCHI SUSUMUABE HIDETOSATO TERUO
    • F16C13/00D21F3/08
    • PROBLEM TO BE SOLVED: To prevent or correct positional travel of a hydrostatic shoe for a cell and prevent the reduction of an oil film thickness of a shoe lubrication face due to travel by providing a pipe passage through which heat medium passes on at least a side face on one side of the hydrostatic shoe. SOLUTION: When a shoe 2 is at B position where the thickness of an in side oil film is small and a temperature of heat medium 34 of a temperature control pipe 29 of a side face of a shaft-out side 6a is increased, a temperature of the side face 6a increases, a difference in temperature for a side face of a shaft-in side 6b increases, and a shaft 1 causes heat warping deformation in Xa direction. At this time, the shoe 2 in a shaft piston groove 23 moves together with the shaft 1 and moves to A position so that an oil film thickness on a shoe lubrication face in side 28 increases. A temperature of the heat medium 34 of the temperature control pipe 29 of the side face 6b may be reduced. In is the same when the shoe 2 is at C position on the contrary. Consequently, it is possible to prevent or correct positional travel of the shoe 2 for a cell, prevent the reduction of the oil film thickness of a shoe lubrication face due to travel or restore the minimum oil film thickness.
    • 8. 发明专利
    • Controlling method for pressurizing belt of single facer and apparatus for it
    • 用于加压单面皮带及其装置的控制方法
    • JP2009196330A
    • 2009-09-03
    • JP2008043658
    • 2008-02-25
    • Mitsubishi Heavy Ind Ltd三菱重工業株式会社
    • ITOYAMA TADASHIISHIBUCHI HIROSHITANIMOTO TERUBUMIKONO KAZUKIYO
    • B31F1/24
    • PROBLEM TO BE SOLVED: To realize automated means to resolve a circumference difference of both sides in width direction section of a pressurizing belt, without applying an overload only to one side of the pressurizing belt.
      SOLUTION: In the controlling method for the pressurizing belt of the single facer controlling so as to diminish lose a circumference difference by detecting a circumference difference between the both sides a and b in width direction of a pressurizing belt, by loading a high pressurizing power to a pressurizing cylinder in the side which carries out advanced pressurizing belt 5 between a couple of a pressurizing cylinder 12a and 12b adjusting a distance between both end roll axes 8 and 9 of a couple of a pressurizing roll 6 and 7, by comparing a high pressure loading time of both of a pressurizing cylinder 12a and 12b in the setting time, a pressurizing cylinder which shows the longer one of a high pressure load time returns to the initial setting pressurization power Po, and the second step where a pressurizing force of a pressurizing cylinder which shows shorter one of high pressure load time Ta, Tb ia made a pressurizing force which reduced to a pressurizing value which is reduced pressure value ΔP which is beforehand established in pressurization power of pressurization cylinder of the shorter one, the second step described above is repeated every set time.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:为了实现解决加压带的宽度方向部分两侧的圆周差异的自动化装置,而不仅对加压带的一侧施加过载。 解决方案:在单面控制加压带的控制方法中,通过检测加压带的宽度方向上的两侧a和b之间的周长差来减小圆周差,通过加载高 对在加压缸12a和12b的一对加压缸12a和12b之间执行先进的加压带5的加压缸加压,以通过比较来控制加压辊6和7的两端辊轴线8和9之间的距离 加压缸12a,12b在凝固时间内的高压加载时间,显示较高压力负荷时间的加压缸返回到初始设定加压功率Po,第二工序中,加压力 显示较短的一个高压负载时间Ta,Tbia的加压缸产生减小到减小的加压值的加压力 d压力值ΔP,其预先建立在较短的加压缸的加压功率中,上述第二步骤在每设定时间重复。 版权所有(C)2009,JPO&INPIT