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    • 71. 发明授权
    • Remote control apparatus of a construction machine
    • 施工机械遥控装置
    • US5551524A
    • 1996-09-03
    • US360047
    • 1994-12-20
    • Shigeru YamamotoShigenori MatsushitaKazushi NakataNobuhisa Kamikawa
    • Shigeru YamamotoShigenori MatsushitaKazushi NakataNobuhisa Kamikawa
    • E02F9/20B62D11/08B62D11/18
    • B62D11/08B62D11/183
    • A remote control apparatus of a construction machine in which steering control is performed by hydraulically controlling the steering clutches and the steering brakes, comprises remote operating unit for generating a first steering command for turning on or off the steering clutches of the construction machine and a second steering command for turning on or off the steering brakes of the construction machine, steering operation of the construction machine being controlled by the first and second steering commands; and a control unit provided in the construction machine, for performing a control in such a manner that when the first steering command becomes on, the steering clutches are released for a duration during which the first steering command is on, and when the second steering command becomes on in the duration during which the first steering command is on, hydraulic pressure of the steering brakes is gradually changed from a releasing side to a braking side with a predetermined gradient. With the control unit, operations can be smooth at the starting time and fine steering control can be realized.
    • 一种建筑机械的遥控装置,其中通过液压控制转向离合器和转向制动器进行转向控制,包括用于产生用于打开或关闭施工机械的转向离合器的第一转向指令的远程操作单元,以及第二 用于打开或关闭施工机械的转向制动器的转向命令,由第一和第二转向指令控制的施工机械的转向操作; 以及控制单元,其设置在所述施工机械中,用于以这样的方式执行控制,使得当所述第一转向命令变为接通时,所述转向离合器在所述第一转向命令开启的持续时间内被释放,并且当所述第二转向指令 在第一转向指令开启的持续时间内变为导通,转向制动器的液压以预定的梯度从释放侧逐渐改变到制动侧。 通过控制单元,起动时的动作可以平滑,可以实现精细的转向控制。
    • 72. 发明授权
    • Control unit for controlling load on a bulldozer in the case of manual
intervention
    • 用于在手动干预的情况下控制推土机负载的控制单元
    • US5515927A
    • 1996-05-14
    • US255725
    • 1994-06-07
    • Shigenori MatsushitaShu H. ZhangShigeru YamamotoSatoru NishitaKazushi Nakata
    • Shigenori MatsushitaShu H. ZhangShigeru YamamotoSatoru NishitaKazushi Nakata
    • E02F3/85E02F9/20A01B67/00
    • E02F9/2029
    • A control unit for controlling load on a bulldozer in the case of manual intervention, comprising: an actual tractive force detector for detecting the actual tractive force of a vehicle body; a target tractive force setting device for setting a target tractive force for an automatic blade control mode in dozing operation according to the actual tractive force detected by the actual tractive force detector; and a blade controller for controlling a blade to be lifted or lowered such that, if there is a difference between the target tractive force set by the target tractive force setting device when switching from the automatic blade control mode to a manual operation mode takes place in dozing operation and the actual tractive force detected by the actual tractive force detector when return from the manual operation mode to the automatic blade control mode takes place, the actual tractive force gradually comes closer to the target tractive force set when switching to the manual operation mode takes place.
    • 一种用于在手动干预的情况下控制推土机上的载荷的控制单元,包括:用于检测车身的实际牵引力的实际牵引力检测器; 目标牵引力设定装置,用于根据由实际牵引力检测器检测到的实际牵引力,在打瞌睡操作中设定用于自动叶片控制模式的目标牵引力; 以及用于控制叶片被提升或降低的刀片控制器,使得如果在从自动刀片控制模式切换到手动操作模式时由目标牵引力设定装置设定的目标牵引力之间存在差异,则发生 当从手动操作模式返回到自动叶片控制模式时,实际的牵引力检测器检测到的打瞌睡操作和实际牵引力发生,当切换到手动操作模式时,实际牵引力逐渐接近设定的目标牵引力 发生。
    • 75. 发明授权
    • Glass fiber forming composition, glass fibers obtained from the
composition and substrate for circuit board including the glass fibers
as reinforcing material
    • 玻璃纤维形成组合物,由组合物获得的玻璃纤维和用于电路板的基板,包括玻璃纤维作为增强材料
    • US5407872A
    • 1995-04-18
    • US148539
    • 1993-11-08
    • Kiyotaka KomoriSeishiro YamakawaShigeru YamamotoJun NakaTadashi Kokubo
    • Kiyotaka KomoriSeishiro YamakawaShigeru YamamotoJun NakaTadashi Kokubo
    • C03C13/00H05K1/03G03C13/02
    • C03C3/097C03C13/00C03C3/091C03C3/102H05K1/0326H05K1/0366H05K1/0373H05K2201/0116H05K2201/0209
    • A glass fiber forming composition exhibits a remarkably high dielectric constant .epsilon..sub..GAMMA. as well as superior chemical resistance, yet it is readily spun into glass fibers. The composition is characterized to show a devitrification temperature which is lower than a spinning temperature at which the glass composition exhibits a viscosity of 10.sup.2.5 poise, so as to be readily spun into corresponding glass fibers. The composition consists essentially of 40 to 65 mol % of SiO.sub.2 ; 20 to 45 mol % of at least one component selected from the group consisting of MgO, CaO, SrO and BaO; 5 to 25 mol % of at least one component selected from the group consisting of TiO.sub.2 and ZrO.sub.2 ; and 0.5 to 15 mol % of NbO.sub.5/2 as calculated from an incorporated amount of Nb.sub.2 O.sub.5. Alternately, the composition consist essentially of 40 to 65 mol % of SiO.sub.2 ; 20 to 45 mol % of at least one component selected from the group consisting of CaO, SrO and BaO; 5 to 25 mol % of at least one component selected from the group consisting of TiO.sub.2 and ZrO.sub.2 ; 0.5 to 15 mol % of NbO.sub.5/2 as calculated from an incorporated amount of Nb.sub.2 O.sub.5 ; and 0.5 to 15 mol % of AlO.sub.3/2 as calculated from an incorporated amount of Al.sub.2 O.sub.3. The composition is also characterized to incorporate at least 85 mol % of a total amount of the oxides and have a dielectric constant [.epsilon..sub..GAMMA. ] of 9 or more at 1 MHz and 25.degree. C.
    • 玻璃纤维形成组合物显示出非常高的介电常数εGAMMA以及优异的耐化学性,但易于纺成玻璃纤维。 该组合物的特征在于显示出低于玻璃组合物的粘度为102.5泊的纺丝温度的失透温度,以便容易地纺丝成相应的玻璃纤维。 该组合物基本上由40至65mol%的SiO 2组成; 20〜45摩尔%的选自MgO,CaO,SrO和BaO的至少一种成分; 5〜25摩尔%的选自TiO 2和ZrO 2的至少一种成分; 和0.5〜15mol%的NbO 5/2,由Nb 2 O 5的掺入量计算。 或者,组合物基本上由40至65mol%的SiO 2组成; 20〜45摩尔%的选自CaO,SrO和BaO的至少一种成分; 5〜25摩尔%的选自TiO 2和ZrO 2的至少一种成分; 由Nb 2 O 5的掺入量计算的NbO 5/2为0.5〜15摩尔% 和由Al 2 O 3的掺入量计算的0.5〜15摩尔%的AlO 3/2。 该组合物的特征还在于,在1MHz和25℃下,所含的氧化物总量至少为85mol%,其介电常数εε为9或更大。
    • 78. 发明授权
    • Substrate for circuit board including the glass fibers as reinforcing
material
    • 电路板基板,包括玻璃纤维作为增强材料
    • US5334645A
    • 1994-08-02
    • US148330
    • 1993-11-08
    • Kiyotaka KomoriSeishiro YamakawaShigeru YamamotoJun NakaTadashi Kokubo
    • Kiyotaka KomoriSeishiro YamakawaShigeru YamamotoJun NakaTadashi Kokubo
    • C03C13/00H05K1/03C08K3/40C03C13/02
    • C03C3/097C03C13/00C03C3/091C03C3/102H05K1/0326H05K1/0366H05K1/0373H05K2201/0116H05K2201/0209
    • A glass fiber forming composition exhibits a remarkably high dielectric constant .epsilon..sub.r as well as superior chemical resistance, yet it is readily spun into glass fibers. The composition is characterized to show a devitrification temperature which is lower than a spinning temperature at which the glass composition exhibits a viscosity of 10.sup.2.5 poise, so as to be readily spun into corresponding glass fibers. The composition consists essentially of 40 to 65 mol % of SiO.sub.2 ; 20 to 45 mol % of at least one component selected from the group consisting of MgO, CaO, SrO and BaO; 5 to 25 mol % of at least one component selected from the group consisting of TiO.sub.2 and ZrO.sub.2 ; and 0.5 to 15 mol % of NbO.sub.5/2 as calculated from an incorporated amount of Nb.sub.2 O.sub.5. Alternately, the composition consist essentially of 40 to 65 mol % of SiO.sub.2 ; 20 to 45 mol % of at least one component selected from the group consisting of CaO, SrO and BaO; 5 to 25 mol % of at least one component selected from the group consisting of TiO.sub.2 and ZrO.sub.2 ; 0.5 to 15 mol % of NbO.sub.5/2 as calculated from an incorporated amount of Nb.sub.2 O.sub.5 ; and 0.5 to 15 mol % of AlO.sub.3/2 as calculated from an incorporated amount of Al.sub.2 O.sub.3. The composition is also characterized to incorporate at least 85 mol % of a total amount of the oxides and have a dielectric constant [.epsilon..sub.r ] of 9 or more at 1 MHz and 25.degree. C.
    • 玻璃纤维形成组合物显示出非常高的介电常数ε以及优异的耐化学性,但易于纺成玻璃纤维。 该组合物的特征在于显示出低于玻璃组合物的粘度为102.5泊的纺丝温度的失透温度,以便容易地纺丝成相应的玻璃纤维。 该组合物基本上由40至65mol%的SiO 2组成; 20〜45摩尔%的选自MgO,CaO,SrO和BaO的至少一种成分; 5〜25摩尔%的选自TiO 2和ZrO 2的至少一种成分; 和0.5〜15mol%的NbO 5/2,由Nb 2 O 5的掺入量计算。 或者,组合物基本上由40至65mol%的SiO 2组成; 20〜45摩尔%的选自CaO,SrO和BaO的至少一种成分; 5〜25摩尔%的选自TiO 2和ZrO 2的至少一种成分; 由Nb 2 O 5的掺入量计算的NbO 5/2为0.5〜15摩尔% 和由Al 2 O 3的掺入量计算的0.5〜15摩尔%的AlO 3/2。 该组合物的特征还在于,在1MHz和25℃下,将总氧化物的总量至少为85mol%,并且其介电常数ε为9以上。