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    • 1. 发明申请
    • SPRING SEAL UNIT OF COMBUSTOR
    • 喷泉密封单元
    • WO1997026485A1
    • 1997-07-24
    • PCT/JP1997000057
    • 1997-01-14
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHAONO, Masaki
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHA
    • F23R03/60
    • F01D11/005F01D9/023F05D2230/642F16J15/0887F23R3/60
    • A spring seal unit comprising spring seals connecting the inner cylinder of a combustor to the tail cylinder, which are prevented from deforming with time so that they may not leak air. The end on the upstream side of spring seals (3, 4) connecting the inner cylinder (1) of the combustor to the tail cylinder (2), is secured to the outside of the inner cylinder (1). The end on the dowstream side of the spring seals (3, 4) is connected by being fitted between the inside of the tail cylinder (2) and a spring seal guide (5) attached thereto. The thermal elongation between the inner cylinder (1) and the tail cylinder (2) caused by the start and stop of a gas turbine is absorbed as the spring seals slide in the spring seal guide (5).
    • 弹簧密封单元,其包括将燃烧器的内筒连接到尾筒的弹簧密封件,防止其随时间变形,使得它们不会泄漏空气。 将燃烧器的内筒(1)与尾筒(2)连接的弹簧密封件(3,4)的上游侧的端部固定在内筒(1)的外侧。 弹簧密封件(3,4)的下游侧的端部通过装配在尾缸(2)的内部和与其连接的弹簧密封导向件(5)之间而连接。 当弹簧密封件在弹簧密封引导件(5)中滑动时,由燃气轮机的启动和停止引起的内筒(1)和尾筒(2)之间的热伸长被吸收。
    • 3. 发明申请
    • INK FEEDER OF PRINTING PRESS AND INK SCRAPER
    • 印刷机和墨水印刷机的墨水供应商
    • WO1997025210A1
    • 1997-07-17
    • PCT/JP1997000024
    • 1997-01-09
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHAHAMAOKA, YukioOYAMA, YoshihiroMITA, KojiMIYAKE, Mitsunao
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHA
    • B41F31/08
    • B41F31/08B41F31/20B41P2217/10B41P2217/11B41P2231/12
    • The first feature of this invention is as follows. An ink feeder comprises a plurality of ink tanks for storing inks and wetting water, disposed in a transverse direction of an ink fountain roller, a vane wheel disposed at the bottom of an ink tank, an ink pump for feeding ink, an ink feed blade for adjusting the quantity of ink supplied from the ink pump to the ink fountain roller to a constant value, and a coupling for transmitting the driving force of a single motor to the vane wheel and the ink pump provided to each ink tank. Inks of different colors in the transverse direction of the ink fountain roller can be fed, printing of different colors on the sheet surfaces of a plurality of sheets disposed in the transverse direction can be conducted, and the ink tank unit can be installed/removed at the time of the color change. The second feature of the invention is as follows. At least the ink tanks, the ink pump, the ink feed nozzle, the ink feed pipe and the ink feed blade mechanism among the members constituting a plurality of sets of ink feeders are built into one unit, and this unit can be fitted to and removed from the main body of the printing press. The processing of residual inks to clean the ink feeder and fitting and removal of the ink feeder are easy, and contamination of the surroundings is prevented. The third feature of the invention is as follows. The ink feeder is equipped with an ink scraper comprising scraped ink separators arranged parallel in the axial direction of the scraping doctor support device. Each of the scraped ink separators comprises an ink guide plate for guiding the ink scraped from the surface of the doctor roller, provided at the bottom, and color mixture preventive walls for preventing mixture of adjacent inks, provided on both sides of the guide plate. Therefore dull color due to mixture of inks of different colors is prevented and the quality of printed matters is improved.
    • 本发明的第一个特征如下。 墨水供给器包括多个用于储存墨水和润湿水的墨水盒,其设置在墨斗辊的横向方向上,设置在墨水盒底部的叶轮,用于供给墨水的墨水泵, 用于将从墨泵供给到墨斗滚筒的墨水量调节到一定值;以及用于将单个马达的驱动力传递到设置在每个墨盒上的叶轮和墨水泵的联接器。 可以供给墨斗辊的横向不同颜色的墨水,可以进行沿横向设置的多个片材的片材表面上的不同颜色的印刷,并且可以将墨盒单元安装/ 颜色变化的时间。 本发明的第二特征如下。 构成多组供墨器的构件中的至少墨水盒,墨水泵,墨水供给喷嘴,供墨管和供墨叶片机构被构建成一个单元,并且该单元可以安装到 从印刷机主体上取下。 用于清洁供墨器的残留油墨的处理是容易的,并且防止了周围环境的污染。 本发明的第三特征如下。 供墨装置配备有刮墨器,该刮墨器包括沿着刮刀支撑装置的轴向平行设置的刮墨分离器。 每个刮墨分离器包括一个导墨板,用于引导设置在底部的刮墨辊表面刮掉的墨,以及设置在引导板两侧的防止相邻墨水混合的防混色墙。 因此防止由于不同颜色的油墨的混合而导致的暗色,并且改善了印刷品的质量。
    • 5. 发明申请
    • STEEL SHEET FOR LARGE STRUCTURES, HAVING PRIMARY RUST-PROOFING PAINT FILM FORMED THEREON, APPLICATION METHOD OF PRIMARY RUST-PROOFING PAINT ON STEEL SHEET FOR LARGE STRUCTURE, AND COATED STEEL SHEET FOR LARGE STRUCTURE
    • 用于大型结构钢板,具有主要防腐涂层的钢板,大型结构钢板上的主要防腐涂料的应用方法和大型结构的涂层钢板
    • WO1996011801A1
    • 1996-04-25
    • PCT/JP1995002082
    • 1995-10-12
    • CHUGOKU MARINE PAINTS, LTD.MITSUBISHI JUKOGYO KABUSHIKI KAISHA
    • CHUGOKU MARINE PAINTS, LTD.MITSUBISHI JUKOGYO KABUSHIKI KAISHAHARADA, OsamuOTA, YojiroTANABE, ShinichiWATANABE, MasayasuTAKAHASHI, HidekiSHIBATA, AkioTANIGUTI, ToyojiTOMOSHIGE, KiyomiMATUDA, Kenichiro
    • B32B15/08
    • B05D7/14B05D1/02C09D5/106
    • A steel sheet for a large structure according to the present invention is a steel sheet for a large structure having a film of a primary rust-proofing paint containing a silicate type binder and zinc powder as a rust-proofing pigment formed on the surface thereof, a mean dry film thickness of the film is 3 to 10 mu m, and a variance index of the film thickness is not greater than 0.18. An application method of a primary rust-proofing paint according to the present invention can form a thin homogeneous film allowing high speed fillet welding at a rate exceeding 100 cm/min on the surface of a steel sheet for a large structure by causing an inorganic zinc primary rust-proofing paint to exhibit its excellent rust-proofing property to maximum. A coated steel sheet for a large structure according to the present invention is produced by forming a powder paint film on the thin homogeneous film of the primary rust-proofing paint formed on the surface on the steel sheet for a large structure. This coated steel sheet can prevent the occurrence of air bubbles inside the powder paint film at the time of baking of the powder paint film, the occurrence of pin-holes on the surface of the powder paint film and cohesive failure of the inorganic zinc primary rust-proofing paint in a coating layer at the time of curing of the powder paint film, that have been the problems in the past, by fully displaying excellent rust-proofing property of the inorganic zinc primary rust-proofing paint. Therefore, the coated steel sheet is excellent in rust-proofness and productivity.
    • 根据本发明的用于大型结构的钢板是一种大型结构的钢板,其具有在其表面上形成的含有硅酸盐型粘合剂和锌粉作为防锈颜料的初级防锈涂料的膜, 膜的平均干膜厚度为3〜10μm,膜厚的方差指数为0.18以下。 根据本发明的一次防锈涂料的施加方法可以形成薄均匀膜,其允许在大结构的钢板的表面上以超过100cm / min的速率进行高速角焊,通过使无机锌 主要防锈涂料,具有极佳的防锈性能。 通过在大型结构的钢板表面形成的一次防锈涂料的薄均匀薄膜上形成粉末漆膜,制造本发明的大型结构的涂层钢板。 这种涂覆钢板可以防止在粉末涂料膜的烘烤时在粉末涂料膜内产生气泡,在粉末涂料膜的表面上产生针孔和无机锌一次锈蚀的内聚破坏 通过充分发挥无机锌一次防锈涂料的优异的防锈性,粉末漆膜固化时的涂层中的涂料在过去的问题已经成为问题。 因此,涂层钢板的防锈性和生产率优异。
    • 7. 发明申请
    • DEVICE FOR PREVENTING SWINGING OF A HUNG LOAD
    • 防止震动的装置
    • WO1994020403A1
    • 1994-09-15
    • PCT/JP1994000353
    • 1994-03-04
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHAOKUBO, YoshiakiINOUE, Koichi
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHA
    • B66C13/06
    • B66C13/06
    • A device for preventing swinging of a hung load, according to the invention comprises movable frames (15) provided on right and left sides, respectively, of a traversing trolley (1) and movable relative to the traversing trolley (1) in a direction of movement of the traversing trolley (1), two sets of guide sheaves (13, 14) for winding up lengths of rope and fixedly provided in the movable frames (15) and spaced apart from each other, and moving means (17) for independently moving the respective movable frames (15) on the traversing trolley (1). The movable frames (15) (guide sheaves) are actuated by the moving means (17) provided on the both sides of the traversing trolley (1) to dampen transverse swinging of a load of the traversing trolley (1), swinging of respective skews or a combined swinging thereof. Accordingly, simplification of the device, readiness of control and an increased freedom with respect to arrangement of the device are attained.
    • 根据本发明的用于防止悬挂载荷的摆动的装置包括分别设置在横向滑车(1)的左右两侧的可移动框架(15),并且可相对于横向滑车(1)沿着 横移滑车(1)的移动,用于卷绕绳索长度并固定地设置在可移动框架(15)中并彼此间隔开的两组导向滑轮(13,14)和用于独立地移动的移动装置(17) 将相应的可移动框架(15)移动到横移台车(1)上。 可移动框架(15)(引导滑轮)由设置在横向滑车(1)两侧的移动装置(17)致动,以阻尼横向滑车(1)的载荷的横向摆动,摆动各自的倾斜 或其组合摆动。 因此,实现了装置的简化,控制的准备和相对于装置的布置的增加的自由度。
    • 8. 发明申请
    • CATALYST FOR NITROGEN OXIDE DECOMPOSITION AND METHOD OF CLEANING NITROGEN OXIDE-CONTAINING EXHAUST GAS
    • 用于氮氧化物分解的催化剂和含氮氧化物排放气体的清洁方法
    • WO1991006508A1
    • 1991-05-16
    • PCT/JP1990001394
    • 1990-10-30
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHAIMAI, Tetsuya;
    • MITSUBISHI JUKOGYO KABUSHIKI KAISHA
    • C01B33/34
    • B01D53/945C01B33/2884Y02A50/2324Y02T10/22
    • A catalyst for decomposing N oxides (NOx) comprises a crystalline silicate containing Cu. The crystalline silicate (1) is represented, in the dehydrate state, by general formula (I) which specifies the mole ratio of the oxides, ( 1.0(+/-)0.4)R2O.a M2O3.b.Al2O3!y SiO2 (I) where R is an alkaline metal ion and/or H atom; M is an ion of an element of gp. VIII of the periodic table, or of Ti, Cr, Nb, or Sb; a+b=1, a greater than 0, b greater than 0, y greater than 12. M is pref. a combination of Fe and Cr or of Fe and Co. Cleaning of an exhaust gas containing NOx, CO and hydrocarbons is carried out by bringing the gas and catalyst into contact at 300 - 800 deg.C. The crystalline silicate (1) can not be obtained naturally, but is synthesised as in the following examples: (i) A mixt. of a substance contg. silica, a substance contg. oxides of some elements of gp. VIII of the periodic table, or of Ti, Vn, Cr, Nb or Sb, substances contg. l2O3, alkaline substances, water and organic cpds. contg. nitrogen, is heated to produce the crystalline silicate. (ii) A reaction mixt. in which the following mole ratios pertain: SiO2/(M2O3 + Al2O3) = 12 - 3000 (pref. 20 - 200), OH/SiO2 = 0 - 1.0 (pref. 0.2 - 0.8), H2SiO2 = 2 - 1000 (pref. 0 - 200), organic cpds/(M2O3 + Al2O3)=5 - 50, is heated at 30 - 300 deg.C (pref. 130 - 200 deg.C) for 0.5 - 14 days (pref. 1 - 10 days). A crystalline silicate containing Cu (120%) has the following mole ratios of oxides: (H. Na)2 O (0.1 Fe2O3 0.9 Al2O3) 80 SiO2. It achieves an NO removal of 85 %, a C3H6 removal of 95 % and a CO removal of 97 %.