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
    • 5. 发明授权
    • Method and apparatus for operating geography-altering machinery relative
to a work site
    • 用于相对于工作现场操作改变地理位置的机器的方法和装置
    • US5526002A
    • 1996-06-11
    • US527992
    • 1995-09-13
    • Adam J. GudatDaniel E. HendersonGregory R. HarrodKarl W. Kleimenhagen
    • Adam J. GudatDaniel E. HendersonGregory R. HarrodKarl W. Kleimenhagen
    • A01B79/00E01C19/00E02F9/20G01C7/04G01C15/00G01S19/48G05D1/02G01S3/02G01S5/02G06F7/70H04B7/185
    • E02F9/2045A01B79/005E01C19/004G05D1/0236G05D1/0255G05D1/0257G05D1/0274G05D1/0278G05D2201/0202
    • A method and apparatus for operating geography-altering machinery such as a track-type tractor, road grader, paver or the like relative to a work site to alter the geography of the site toward a desired condition. A first digital three-dimensional model of the desired site geography, and a second digital three-dimensional model of the actual site geography are stored in a digital data storage facility. The machine is equipped with a position receiver to determine in three-dimensional space the location of the machine relative to the site. A dynamic database receives the machine position information, determines the difference between the first and second site models and generates representational signals of that difference for directing the operation of the machine to bring the actual site geography into conformity with the desired site geography. In one embodiment, the signals representing the machine position and the difference between the first and second site models used to generate an operator display which is updated in real time. Alternately, the signals representing the difference between the first and second site models can be supplied to automatic machine controls for autonomous or semi-autonomous operation of the machine.
    • 用于相对于工作现场操作诸如轨道式拖拉机,道路平地机,摊铺机等的地理变化机械的方法和装置,以将站点的地理位置改变到期望的状态。 所需位置地理学的第一数字三维模型和实际站点地理学的第二数字三维模型被存储在数字数据存储设施中。 该机器配备有位置接收器,用于在三维空间中确定机器相对于现场的位置。 动态数据库接收机器位置信息,确定第一和第二站点模型之间的差异,并产生该差异的表示信号,用于指导机器的操作,以使实际站点地理位置与期望的站点地理位置一致。 在一个实施例中,表示机器位置的信号和用于生成实时更新的操作者显示器的第一和第二站点模型之间的差异。 或者,表示第一和第二站点模型之间的差异的信号可以被提供给机器的自动或半自主操作的自动机器控制。
    • 6. 发明授权
    • Method and apparatus for operating geography-altering machinery relative
to a work site
    • 用于相对于工作现场操作改变地理位置的机器的方法和装置
    • US5631658A
    • 1997-05-20
    • US607542
    • 1996-02-27
    • Adam J. GudatDaniel E. HendersonGregory R. HarrodKarl W. Kleimenhagen
    • Adam J. GudatDaniel E. HendersonGregory R. HarrodKarl W. Kleimenhagen
    • A01B79/00E01C19/00E02F9/20G01C7/04G01C15/00G01S19/48G05D1/02G06F19/00G01S3/02G01S5/02
    • E02F9/2045A01B79/005E01C19/004G05D1/0278G05D1/0236G05D1/0255G05D1/0257G05D1/0274G05D2201/0202
    • A method and apparatus for operating geography-altering machinery such as a track-type tractor, road grader, paver or the like relative to a work site to alter the geography of the site toward a desired condition. A first digital three-dimensional model of the desired site geography, and a second digital three-dimensional model of the actual site geography are stored in a digital data storage facility. The machine is equipped with a position receiver to determine in three-dimensional space the location of the machine relative to the site. A dynamic database receives the machine position information, determines the difference between the first and second site models and generates representational signals of that difference for directing the operation of the machine to bring the actual site geography into conformity with the desired site geography. In one embodiment, the signals representing the machine position and the difference between the first and second site models used to generate an operator display which is updated in real time. Alternately, the signals representing the difference between the first and second site models can be supplied to automatic machine controls for autonomous or semi-autonomous operation of the machine.
    • 用于相对于工作现场操作诸如轨道式拖拉机,道路平地机,摊铺机等的地理变化机械的方法和装置,以将站点的地理位置改变到期望的状态。 所需位置地理学的第一数字三维模型和实际站点地理学的第二数字三维模型被存储在数字数据存储设施中。 该机器配备有位置接收器,用于在三维空间中确定机器相对于现场的位置。 动态数据库接收机器位置信息,确定第一和第二站点模型之间的差异,并产生该差异的表示信号,用于指导机器的操作,以使实际站点地理位置与期望的站点地理位置一致。 在一个实施例中,表示机器位置的信号和用于生成实时更新的操作者显示器的第一和第二站点模型之间的差异。 或者,表示第一和第二站点模型之间的差异的信号可以被提供给机器的自动或半自主操作的自动机器控制。
    • 8. 发明授权
    • Implement control system for locating a surface interface and removing a
layer of material
    • 实施用于定位表面界面的控制系统,并移除一层材料
    • US5647439A
    • 1997-07-15
    • US572136
    • 1995-12-14
    • J. Scott BurdickPaul T. CorcoranAdam J. GudatRobert A. HeroldJohn F. Szentes
    • J. Scott BurdickPaul T. CorcoranAdam J. GudatRobert A. HeroldJohn F. Szentes
    • E01C19/00E01H5/00E02F3/76
    • E01H5/00E01C19/004
    • An apparatus coupled to a work machine for assisting the work machine in removing a first layer of material from a second layer of material is provided. The work machine includes a work implement with a cutting portion. The work implement is elevationally movably connected to the work machine. The cutting portion extends in a direction transverse the longitudinal axis of the work machine. An electromagnetic unit, connected to the work machine, delivers electromagnetic radiation towards the surface, receives a reflection of the delivered electromagnetic radiation, and delivers a responsive first signal. The electromagnetic radiation penetrates the first layer of material and reflects off of the second layer of material. A controller receives the first signal, determines the distance between the electromagnetic unit and the second layer of material and responsively produces a distance signal. An implement controller receives the distance signal and responsively actuates the work implement relative to the frame.
    • 提供一种耦合到作业机器的装置,用于辅助作业机器从第二层材料中去除第一层材料。 作业机械包括具有切割部分的作业工具。 工作机具可升降地连接到作业机。 切割部分在横向于作业机器的纵向轴线的方向上延伸。 连接到作业机器的电磁单元向该表面传递电磁辐射,接收所传送的电磁辐射的反射,并传送响应的第一信号。 电磁辐射穿透第一层材料并反射出第二层材料。 控制器接收第一信号,确定电磁单元与第二层材料之间的距离,并响应地产生距离信号。 工具控制器接收距离信号并相对于框架响应地致动工作工具。
    • 9. 发明授权
    • Method and apparatus for real-time monitoring and coordination of
multiple geography altering machines on a work site
    • 用于在工地上实时监测和协调多个地理变化机器的方法和装置
    • US5646844A
    • 1997-07-08
    • US439539
    • 1995-05-11
    • Adam J. GudatDaniel E. Henderson
    • Adam J. GudatDaniel E. Henderson
    • E01C19/22E01C19/00E02F3/84E02F9/20G01S5/14G01S19/04G01S19/14G01S19/44G01S19/48G05D1/02G08G1/13E02D7/26
    • G05D1/0278E01C19/004E02F3/842G01S19/04G01S19/14G01S19/44G05D1/0274G05D1/0297G05D2201/0202
    • An apparatus and method for directing the operations of multiple geography-altering machines on a common work site relative to one another. Position information from several machines is shared to generate a common, dynamically-updated site database showing the machines' relative positions and site progress in real time. The common site database is used to direct the operation of one machine with respect to another machine or machines, for example by generating an operator display of the site showing relative machine position and total machine work on the site. The operator can accordingly adjust the machine's operation to avoid interference with other machines or unnecessary overlap of work on the site. The information can also be used to coordinate the operations of several machines in complementary fashion. Machine position information can be broadcast from the machines to the site database to create a common, dynamically-updated database which is then shared with one or more of the machines. In a particular embodiment each machine is provided with its own dynamically-updated database and operator display, and machine position information is shared on a continuous, real-time basis between the machines so that they effectively share a common site database.
    • 一种用于将多个改变地理位置的机器的操作相对于彼此引导到公共工作现场的装置和方法。 共享来自多台机器的位置信息,以生成一个通用的,动态更新的站点数据库,实时显示机器的相对位置和站点进度。 公共站点数据库用于指导一台机器相对于另一机器或机器的操作,例如通过在站点上生成显示相对机器位置和总机器工作的站点的操作员显示。 操作者可以相应地调整机器的操作,以避免与其他机器的干扰或现场工作不必要的重叠。 该信息还可以用于以互补的方式协调几台机器的操作。 机器位置信息可以从机器广播到站点数据库,以创建一个通用的,动态更新的数据库,然后与一个或多个机器共享。 在特定实施例中,每个机器具有其自己的动态更新的数据库和操作者显示,并且机器位置信息在机器之间以连续的实时基础共享,使得它们有效地共享公共站点数据库。