会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • Measuring Method And Measuring Device
    • 测量方法和测量装置
    • US20110080596A1
    • 2011-04-07
    • US12891900
    • 2010-09-28
    • You SasakiKazuhiro OgawaTakaaki YamazakiShigeyuki YamaguchiRyousuke Miyoshi
    • You SasakiKazuhiro OgawaTakaaki YamazakiShigeyuki YamaguchiRyousuke Miyoshi
    • G01B11/14
    • G01B5/008G01B11/03G01B21/04G01C15/06G01C21/165G01S19/45G01S19/49
    • The invention provides a measuring method for installing a measuring rod 6 in a predetermined relation with respect to a coordinate system set to a mobile object 1, for transcribing a predetermined position of the measuring rod on a ground surface where the mobile object is set, for transcribing a measuring point of an object to be measured as set on the mobile object to the ground surface, for measuring a distance on the ground surface between the transcribed predetermined position and the transcribed measuring point, for obtaining a relation between the measuring point and the measuring rod on the ground based on a result of distance measurement, and for obtaining a position on a horizontal coordinate plane in the coordinate system of the measuring point based on the obtained relation and on the relation with the measuring rod with respect to the coordinate system, and the invention also provides a method for measuring a vertical distance between the predetermined position and the ground surface and a vertical distance between the measuring point and the ground surface, and for measuring three-dimensional position of the measuring point in the coordinate system.
    • 本发明提供了一种测量方法,用于将测量杆6相对于设置在移动体1上的坐标系设置为预定关系,用于将测量杆的预定位置转印到设置有移动物体的地面上,以便 将要设置在所述移动物体上的被测量物体的测量点转印到所述地面,以测量所述转录的预定位置和所述转录测量点之间的地面上的距离,以获得所述测量点和所述转录测量点之间的关系 基于距离测量的结果在地面上的测量杆,并且基于获得的关系以及与测量杆相对于坐标系的关系来获得测量点的坐标系中的水平坐标平面上的位置 本发明还提供了一种用于测量预定位置和格栅之间的垂直距离的方法 测量点和地面之间的垂直距离,并用于测量坐标系中测量点的三维位置。
    • 3. 发明授权
    • Polymer composition containing a piperidyl-triazine compound
    • 含有哌啶基 - 三嗪化合物的聚合物组合物
    • US5486556A
    • 1996-01-23
    • US432665
    • 1995-05-02
    • Toshimasa TodaSatoru NaitoHisayu OsawaTakaaki Yamazaki
    • Toshimasa TodaSatoru NaitoHisayu OsawaTakaaki Yamazaki
    • C07D401/14C08K5/3435C08K5/3492
    • C07D401/14C08K5/3435C08K5/34926
    • A polymer composition comprising a polymer stabilized against the effects of light and heat by the incorporation of a polymer stabilizer, wherein the polymer stabilizer comprises at least one compound selected from the group consisting of compounds of formula (I): ##STR1## wherein R.sup.1 is hydrogen, alkyl, alkoxyalkyl, carboxylic acyl or phenylalkyl, or an optionally substituted tetramethylpiperidyl group; R.sup.2 is hydrogen, alkyl, carboxylic acyl or phenylalkyl group; R.sup.3 is alkylene optionally interrupted by at least one oxygen atom; X is oxygen or --NR.sup.5 --, wherein R.sup.5 is hydrogen or alkyl; Y is --OCO--, --COO--, --CONH-- or --OCONH--; n is 2 to 4; and, when n is 2, Z is alkylene optionally interrupted by at least one oxygen, or sulfur or aryl, cycloalkyl or heterocyclic group, or, when n is 3, Z is alkanetriyl in which a carbon is optionally replaced by nitrogen or, when n is 4, Z is alkanetetrayl optionally interrupted by at least one oxygen atom, and acid addition salts of such compounds.
    • 一种聚合物组合物,其包含通过引入聚合物稳定剂而稳定的耐光和热效果的聚合物,其中所述聚合物稳定剂包含至少一种选自式(I)化合物的化合物:(I) 其中R1是氢,烷基,烷氧基烷基,羧基酰基或苯基烷基,或任选取代的四甲基哌啶基; R2是氢,烷基,羧酰基或苯基烷基; R3是任选被至少一个氧原子间隔的亚烷基; X是氧或-NR 5 - ,其中R 5是氢或烷基; Y是-OCO - , - COO - , - CONH-或-OCONH-; n为2〜4; 并且当n为2时,Z为任选被至少一个氧或硫或芳基,环烷基或杂环基中断的亚烷基,或当n为3时,Z为烷基,其中碳任选被氮取代, n是4,Z是任选地被至少一个氧原子中断的烷基乙酰基,以及这些化合物的酸加成盐。
    • 4. 发明申请
    • Laser measuring system
    • 激光测量系统
    • US20080218739A1
    • 2008-09-11
    • US12069226
    • 2008-02-08
    • Takaaki YamazakiYasutaka Katayama
    • Takaaki YamazakiYasutaka Katayama
    • G01N21/00
    • G01C15/004E02F3/847
    • A laser measuring system, which comprises a laser rotary irradiation device for forming a laser reference plane by projecting a laser beam in rotary irradiation, and a photodetection device for performing position measurement by receiving the laser beam, wherein the laser rotary irradiation device comprises a laser beam emitter, an emission light amount adjusting means for adjusting light amount of the laser beam of the laser beam emitter, and a first communication means for performing communication with said photodetection device, and wherein the photodetection device comprises a photodetector for detecting the reference plane, a second communication means for performing communication to and from the laser rotary irradiation device, and a control unit for calculating whether a photodetection signal from the photodetector is within a predetermined range or not, wherein the first communication means transmits a laser beam emitting condition of the laser rotary irradiation device to the second communication means, and the second communication means transmits a photodetecting condition of the photodetection device to the first communication means.
    • 一种激光测量系统,其包括通过在旋转照射中投射激光而形成激光基准面的激光旋转照射装置和通过接收激光束进行位置测量的光检测装置,其中激光旋转照射装置包括激光 射束发射器,用于调整激光束发射器的激光束的光量的发射光量调节装置和用于与所述光检测装置进行通信的第一通信装置,并且其中所述光检测装置包括用于检测参考平面的光电检测器, 用于与激光旋转照射装置进行通信的第二通信装置和用于计算来自光电检测器的光检测信号是否在预定范围内的控制单元,其中第一通信装置发送激光旋转照射装置的激光束发射条件, 激光旋转照射装置 第二通信装置,并且第二通信装置将光检测装置的光电检测条件发送到第一通信装置。
    • 5. 发明授权
    • Beam position detector having a photodetection unit
    • 光束位置检测器,具有光检测单元
    • US06337473B2
    • 2002-01-08
    • US09181255
    • 1998-10-28
    • Takaaki YamazakiKen-ichiro Yoshino
    • Takaaki YamazakiKen-ichiro Yoshino
    • G01C2102
    • G01C15/006
    • A beam position detector, which comprises a photodetection unit for receiving a laser beam and issuing a signal corresponding to photodetection amount, wherein said photodetection unit has a first photoelectric conversion unit and a second photoelectric conversion unit and width of said first photoelectric conversion unit is gradually decreased in positive position detecting direction, and width of said second photoelectric conversion unit is gradually increased in positive position detecting direction, and scanning position of the laser beam is detected by comparing the output value of said first photoelectric conversion unit with the output value of said second photoelectric conversion unit.
    • 一种光束位置检测器,包括用于接收激光束并发出与光检测量对应的信号的光检测单元,其中所述光检测单元具有第一光电转换单元和第二光电转换单元,并且所述第一光电转换单元的宽度逐渐 在正位置检测方向上减小,并且所述第二光电转换单元的宽度在正位置检测方向上逐渐增加,并且通过将所述第一光电转换单元的输出值与所述第一光电转换单元的输出值进行比较来检测激光束的扫描位置 第二光电转换单元。
    • 6. 发明授权
    • Holder for reference projected light detector
    • 参考投影光检测器
    • US06209832B1
    • 2001-04-03
    • US09265264
    • 1999-03-09
    • Takaaki Yamazaki
    • Takaaki Yamazaki
    • E04G300
    • G01C15/006
    • The holder for the reference projected light detector of the present invention comprises a mounting assembly for mounting the reference projected light detector and a fixing assembly for fixing the detector on a staff member, wherein said fixed assembly comprises a clamp knob with a tip thereof being adjustable in association with a width of the staff member and a clamper rotatably provided and facing to the clamp knob, and said staff member is squeezed between said clamp knob and said clamper by rotation of said clamper. By adjusting the clamp knob, it is adapted to thickness of the squeezed staff member, and by further turning the camper, the tip of the locking portion is rotated, and the distance between the tip of the locking portion and the clamp knob can be varied as the result of rotation of the locking portion, and the holder for reference projected light detector can be clamped on the staff member or clamping can be released.
    • 用于本发明的参考投影光检测器的保持器包括用于安装参考投影光检测器的安装组件和用于将检测器固定在工作人员上的固定组件,其中所述固定组件包括夹具,其顶端可调节 与工作人员的宽度和可旋转地设置并面向夹紧旋钮的夹持器相关联,并且所述工作人员通过所述夹持器的旋转而在所述夹紧器和所述夹持器之间被挤压。 通过调整夹紧旋钮,适应被挤压的人员的厚度,并且通过进一步转动露营器,锁定部分的尖端旋转,并且锁定部分的尖端与夹紧旋钮之间的距离可以变化 作为锁定部的旋转的结果,用于基准投射光检测器的保持器可以夹紧在工作人员上,或者可以释放夹紧。
    • 10. 发明授权
    • Reference irradiation beam detecting apparatus
    • 参考照射光束检测装置
    • US06172742B2
    • 2001-01-09
    • US09196332
    • 1998-11-19
    • Takaaki Yamazaki
    • Takaaki Yamazaki
    • G01C308
    • G01C15/006
    • Conventional reference beam detecting apparatus require the use of transits and levels in addition to the reference beam detecting apparatus itself to make the operation of determining the height of construction very cumbersome. A reference beam detecting apparatus 404 according to the invention comprises a first light receiving section 412 and a second light receiving section 414. The angle SFH formed by the first light receiving section 412 and the front surface of the apparatus main body and the angle SFG formed by the second light receiving section 414 and the front surface of the apparatus main body are same and equal to about 30° . The reference beam detecting apparatus further comprises a light receiving position display section 118, a notch 140 and a data display section 404. An angular displacement computing circuit determines the angular displacement of the reference beam detecting apparatus 404 on the basis of the output signal of a laser beam detecting circuit to correct the error due to the angular displacement of the reference beam detecting apparatus.
    • 传统的参考光束检测装置除了参考光束检测装置本身之外还需要使用转换和电平,以使确定结构高度的操作非常麻烦。 根据本发明的参考光束检测装置404包括第一光接收部分412和第二光接收部分414.由第一光接收部分412形成的角度SFH和装置主体的前表面和形成的角度SFG 通过第二光接收部414和装置主体的前表面相同并且等于大约30°。 参考光束检测装置还包括光接收位置显示部分118,凹口140和数据显示部分404.角位移计算电路基于a的输出信号确定参考光束检测装置404的角位移 激光束检测电路,用于校正由于参考光束检测装置的角位移引起的误差。