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    • 2. 发明专利
    • O-ring flare type pipe joint
    • O型圈型管接头
    • JP2005172204A
    • 2005-06-30
    • JP2003416932
    • 2003-12-15
    • Usui Kokusai Sangyo Kaisha Ltd臼井国際産業株式会社
    • USUI MASAYOSHITAKIGAWA KAZUYOSHITAKAHASHI TERUHISAAKIYAMA MASAAKIMIZUNO KAZUMITSU
    • F16L19/04F16L19/03
    • PROBLEM TO BE SOLVED: To provide an O-ring flare type pipe joint of excellent seal performance.
      SOLUTION: This O-ring flare type pipe joint comprises a pipe having a spool radially expanded close to a connection end, a sleeve nut engaged with the pipe with clearance on the other side of the connection end, and a joint part having a lead port formed as a tapered hole enlarged in the spool direction and a connection hole to the sleeve nut. The spool of the pipe is held between an end surface of the sleeve nut and a bottom surface of the connection hole. An O-ring engaged in a throat part provided between the flare of the connection end of the pipe and the spool is fitted to an inner circumferential surface of the lead port. The O-ring is composed of an elastic O-ring of metal.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供优异的密封性能的O形圈火炬型管接头。 解决方案:该O形圈扩口型管接头包括具有靠近连接端径向膨胀的阀芯的管,与连接端另一侧上具有间隙的管接合的套管螺母,以及具有 形成为沿阀芯方向扩大的锥形孔的引导端口和与套筒螺母的连接孔。 管的卷轴被保持在套筒螺母的端面和连接孔的底表面之间。 配设在管连接端的火炬和阀芯之间的喉部的O形环安装在引导口的内周面上。 O形环由金属的弹性O形环组成。 版权所有(C)2005,JPO&NCIPI
    • 3. 发明专利
    • Coating forming method for coated metal pipe and coating forming apparatus therefor
    • 涂层金属管材涂层成型方法及其涂装方法
    • JP2005178020A
    • 2005-07-07
    • JP2003417983
    • 2003-12-16
    • Usui Kokusai Sangyo Kaisha Ltd臼井国際産業株式会社
    • KAJIYAMA MASASHITAKIGAWA KAZUYOSHITAKAHASHI TERUHISAAKIYAMA MASAAKI
    • B21C37/06B29C47/02B29C47/88B29L9/00B29L23/00
    • PROBLEM TO BE SOLVED: To provide a coating forming method for a coated metal pipe capable of generally simplifying an extrusion coating device, capable of increasing a manufacturing speed, capable of easily performing coating processing in the whole of a coating forming apparatus to generally make a product cost relatively inexpensive and enhancing the adhesion and bonding strength of the coating layer on the surface of a metal pipe to eliminate the occurrence of fear of peeling, and the coating forming apparatus therefor.
      SOLUTION: At least a single resin layer is applied to the outer peripheral surface of the metal pipe by extrusion using a series of devices, which are composed of a feed roll device, at least one extrusion supply unit high frequency induction heating device connected to the die main body constituting the extrusion coating device, a press roll device, a cooler and a cutter all of which are successively arranged in the moving direction of the metal pipe of which the outer peripheral surface is preliminarily subjected to plating treatment, while moving the metal pipe in one direction. Further, the metal pipe is instantaneously heated to the melting temperature of the resin layer or above in cooperation with the movement of the metal pipe and the resin layer is pressed and closely bonded to the metal pipe as rapidly as possible before cooled and solidified.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为了提供能够大大简化挤出涂布装置的能够提高制造速度的涂覆金属管的涂布形成方法,能够容易地进行整个涂布形成装置中的涂布处理 通常使产品成本相对便宜并且提高金属管表面上的涂层的粘合力和粘结强度,以消除剥离害怕的发生,以及其涂层形成装置。 解决方案:使用由进料辊装置,至少一个挤出供给单元的高频感应加热装置构成的一系列装置,至少将单个树脂层挤压到金属管的外周面上 连接到构成挤出涂布装置的模具主体,压辊装置,冷却器和切割机都沿着外周表面预先进行电镀处理的金属管的移动方向依次布置,同时 沿一个方向移动金属管。 此外,金属管随着金属管的移动而被瞬间加热到树脂层的熔融温度以上,并且在冷却和固化之前尽可能快地将树脂层压紧并紧密地结合到金属管上。 版权所有(C)2005,JPO&NCIPI
    • 8. 发明专利
    • High strength steel artifact superior in notch fatigue strength, and manufacturing method therefor
    • 高强度钢锻造高强度疲劳强度及其制造方法
    • JP2012126974A
    • 2012-07-05
    • JP2010280858
    • 2010-12-16
    • Nomura Unison Co LtdShinshu UnivUsui Kokusai Sangyo Kaisha Ltd国立大学法人信州大学臼井国際産業株式会社野村ユニソン株式会社
    • SUGIMOTO KOICHIKOBAYASHI JUNYAINA DAIKITAKAHASHI TERUHISAARAI GORO
    • C22C38/00B21B3/00B21J1/06B21J5/00B21K3/00B23P13/00C21D8/00C22C38/38F02M55/02
    • PROBLEM TO BE SOLVED: To provide a high strength steel artifact consisting of ultrahigh-strength low-alloy TRIP steel (TBF steel) with high notch fatigue strength, manufactured by controlling a component addition amount of chemical composition and heat treatment condition without depending on a forging temperature, a forging processing rate and the like.SOLUTION: The high strength steel artifact superior in notch fatigue strength includes 0.15 to 0.25% C, ≤2.5% Si (not including 0%), 0.5 to 2% Mn, 0.5 to 1.5% Cr, ≤0.5% Mo, ≤0.1% Nb, and remainder being Fe and unescapable impurities, and has a carbon equivalent (Ceq) of 0.65% or larger and less than 0.75%, which is determined by following formula. Moreover, in the metal structure of the high strength steel artifact, a mother phase includes not less than 65% of a Russ-like bainitic ferrite by volume rate to all the structure, and 5% or less in total of polygonal ferrite and granular bainitic ferrite by volume rate to all the structure, and a second phase includes 5 to 20% of remained austenite by volume rate to all the structure and 10% or less of martensite by volume rate to all the structure. The carbon equivalent is determined by the formula: Ceq=C+Mn/6+Si/24+Ni/40+Cr/5+Mo/4+V/14.
    • 要解决的问题:提供由超高强度低合金TRIP钢(TBF钢)组成的具有高切削疲劳强度的高强度钢赝品,其通过控制化学成分的组分添加量和热处理条件而制备,而没有 取决于锻造温度,锻造加工速率等。 解决方案:缺口疲劳强度优异的高强度钢赝像包括0.15-0.25%C,≤2.5%的Si(不包括0%),0.5至2%的Mn,0.5至1.5%的Cr,≤0.5%的Mo, ≤0.1%的Nb,其余为Fe和不可避免的杂质,其碳当量(Ceq)为0.65%以上且小于0.75%,由下式确定。 此外,在高强度钢赝像的金属结构中,母相的体积率相对于所有的结构为不低于65%的Russ状贝氏体铁素体,总共包含多边形铁素体和粒状贝氏体的总和的5%以下 铁素体的体积率与所有结构相比,第二相包括所有结构的体积率为5〜20%,所有结构体积率为10%以下的马氏体。 碳当量由下式确定:Ceq = C + Mn / 6 + Si / 24 + Ni / 40 + Cr / 5 + Mo / 4 + V / 14。 版权所有(C)2012,JPO&INPIT