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    • 2. 发明授权
    • Paving system and method
    • 铺路系统及方法
    • US08099218B2
    • 2012-01-17
    • US11998660
    • 2007-11-30
    • Katherine C. GleeDean R. PottsPaul T. CorcoranTerry L. Rasmussen
    • Katherine C. GleeDean R. PottsPaul T. CorcoranTerry L. Rasmussen
    • G06F19/00
    • E01C19/004E01C19/288E01C19/48Y10T428/1352Y10T428/1386Y10T428/1397Y10T428/31641Y10T428/31696
    • A method of operating a paving system includes establishing a plan for paving a work area which is based on a positional temperature model. The method further includes receiving temperature data for paving material and comparing the temperature data with data predicted by the positional temperature model. Operation of the paving system is adjusted where actual data differs from model predicted data. A paving system and control system are provided having an electronic control unit configured to compare electronic temperature data with a positional temperature model for paving material. The electronic control unit can control machines of the paving system based on comparing actual data with model predicted data, and can further update either or both of a plan for paving a work area and the positional temperature model itself based on differences between actual data and model predicted data. A complete temperature profile of a paving work area, including a comparison with the model may be recorded in computer readable memory for forensic and predictive analysis.
    • 操作铺路系统的方法包括建立基于位置温度模型铺设工作区域的平面图。 该方法还包括接收铺路材料的温度数据,并将温度数据与由位置温度模型预测的数据进行比较。 在实际数据与模型预测数据不同的情况下调整铺路系统的运行。 提供一种具有电子控制单元的铺路系统和控制系统,电子控制单元被配置为将电子温度数据与铺路材料的位置温度模型进行比较。 电子控制单元可以基于将实际数据与模型预测数据进行比较来控制铺路系统的机器,并且可以基于实际数据和模型之间的差异来进一步更新用于铺设工作区域的方案和位置温度模型本身中的一个或两个 预测数据。 包括与模型的比较的铺路工作区域的完整温度曲线可以记录在用于法医和预测分析的计算机可读存储器中。
    • 3. 发明申请
    • System and method for preparing a worksite based on soil moisture map data
    • 基于土壤水分图数据准备工地的系统和方法
    • US20080202777A1
    • 2008-08-28
    • US11712009
    • 2007-02-28
    • Paul T. Corcoran
    • Paul T. Corcoran
    • A01B35/00A01B79/00
    • E02D1/027E02F9/2045
    • A soil moisture mapping based method for transferring soil for an earthworks construction project includes outputting signals based on soil moisture data and position data indicative of a location within a cut area or a fill area of the soil. The method further includes selecting a location within a cut area for obtaining fill soil or a location within a fill area for depositing fill soil based on the signals. A system for supplying soil for an earthworks construction project includes at least one machine having a sensor configured to sense soil moisture, and a receiver configured to receive position data corresponding with a location of the soil, and a signaling device configured to output signals based on the position data and soil moisture data. A transfer machine is included in the system and configured to selectively transfer fill soil between the cut area and the fill area based on the signals.
    • 基于土壤水分测绘的方法,用于输送土方工程施工项目的土壤,包括根据土壤水分数据和位置数据输出指示土壤切割区域或填充区域内的位置的信号。 该方法还包括选择切割区域内的位置,以获得填充土或填充区域内的基于该信号沉积填土的位置。 用于为土方工程施工项目提供土壤的系统包括至少一台机器,其具有构造成感测土壤水分的传感器,以及接收器,其被配置为接收对应于土壤位置的位置数据;以及信号装置,其被配置为基于 位置数据和土壤水分数据。 传送机被包括在系统中并且被配置为基于信号选择性地在切割区域和填充区域之间传送填充土壤。
    • 5. 发明授权
    • Tooth for compactor wheel
    • 用于压实轮的齿
    • US5217322A
    • 1993-06-08
    • US812541
    • 1991-12-23
    • Paul T. CorcoranDavid O. Philips
    • Paul T. CorcoranDavid O. Philips
    • E02D3/026
    • E02D3/026
    • Teeth for compactors are normally utilized to crush and/or grind refuse material and/or soil being worked and to effectively compact the refuse material and/or soil being worked. It is also advantageous to insure that the teeth being used provide traction of the compactor wheel on the materials being worked while not allowing the refuse material and/or soil to collect between the teeth of the compactor wheel. In the subject arrangement, the tooth provides a tip portion having an outer surface with at least six edges and a plurality of corresponding side surfaces extending therefrom at an obtuse angle with respect to the outer surface. The tooth defines a longitudinal plane therethrough that is parallel to the length of the tooth and perpendicular to the outer surface. Two of the side surfaces lie perpendicular to the longitudinal plane and form obtuse angles with the outer surface in the range of 115 degrees to 135 degrees. The angle of the two side surfaces with respect to the outer surface and the angle of the plurality of other sides with respect to the outer surface provides a tooth that effectively penetrates the refuse material and/or soil being worked, crushes and/or compacts the refuse material and/or soil being worked while providing sufficient traction for the compacting wheel thereon.
    • 用于压实机的牙齿通常用于压碎和/或研磨垃圾和/或被加工的土壤,并有效地压实垃圾和/或被加工的土壤。 确保使用的齿提供压实轮在被加工材料上的牵引力,同时不允许垃圾材料和/或土壤收集在压实轮的齿之间也是有利的。 在主题布置中,齿提供具有至少六个边缘的外表面和从其相对于外表面以钝角延伸的多个对应侧表面的尖端部分。 齿限定了通过其穿过的纵向平面,其平行于齿的长度并垂直于外表面。 两个侧表面垂直于纵向平面,与外表面在115度至135度的范围内形成钝角。 两个侧表面相对于外表面的角度以及多个其它侧面相对于外表面的角度提供了一种有效地渗入垃圾和/或正在加工的土壤中的牙齿,压碎和/或压紧 垃圾和/或土壤正在加工,同时为其上的压实轮提供足够的牵引力。
    • 6. 发明授权
    • System and method for preparing a worksite based on soil moisture map data
    • 基于土壤水分图数据准备工地的系统和方法
    • US07908062B2
    • 2011-03-15
    • US11712009
    • 2007-02-28
    • Paul T. Corcoran
    • Paul T. Corcoran
    • A01B69/04A01B77/00A01B79/00B60S11/00B60P1/00
    • E02D1/027E02F9/2045
    • A soil moisture mapping based method for transferring soil for an earthworks construction project includes outputting signals based on soil moisture data and position data indicative of a location within a cut area or a fill area of the soil. The method further includes selecting a location within a cut area for obtaining fill soil or a location within a fill area for depositing fill soil based on the signals. A system for supplying soil for an earthworks construction project includes at least one machine having a sensor configured to sense soil moisture, and a receiver configured to receive position data corresponding with a location of the soil, and a signaling device configured to output signals based on the position data and soil moisture data. A transfer machine is included in the system and configured to selectively transfer fill soil between the cut area and the fill area based on the signals.
    • 基于土壤水分测绘的方法,用于输送土方工程施工项目的土壤,包括根据土壤水分数据和位置数据输出指示土壤切割区域或填充区域内的位置的信号。 该方法还包括选择切割区域内的位置,以获得填充土或填充区域内的基于该信号沉积填土的位置。 用于为土方工程施工项目提供土壤的系统包括至少一台机器,其具有构造成感测土壤水分的传感器,以及接收器,其被配置为接收对应于土壤位置的位置数据;以及信号装置,其被配置为基于 位置数据和土壤水分数据。 传送机被包括在系统中并且被配置为基于信号选择性地在切割区域和填充区域之间传送填充土壤。
    • 7. 发明申请
    • Paving system and method
    • 铺路系统及方法
    • US20090142133A1
    • 2009-06-04
    • US11998660
    • 2007-11-30
    • Katherine C. GleeDean R. PottsPaul T. CorcoranTerry L. Rasmussen
    • Katherine C. GleeDean R. PottsPaul T. CorcoranTerry L. Rasmussen
    • E01C11/00
    • E01C19/004E01C19/288E01C19/48Y10T428/1352Y10T428/1386Y10T428/1397Y10T428/31641Y10T428/31696
    • A method of operating a paving system includes establishing a plan for paving a work area which is based on a positional temperature model. The method further includes receiving temperature data for paving material and comparing the temperature data with data predicted by the positional temperature model. Operation of the paving system is adjusted where actual data differs from model predicted data. A paving system and control system are provided having an electronic control unit configured to compare electronic temperature data with a positional temperature model for paving material. The electronic control unit can control machines of the paving system based on comparing actual data with model predicted data, and can further update either or both of a plan for paving a work area and the positional temperature model itself based on differences between actual data and model predicted data. A complete temperature profile of a paving work area, including a comparison with the model may be recorded in computer readable memory for forensic and predictive analysis.
    • 操作铺路系统的方法包括建立基于位置温度模型铺设工作区域的平面图。 该方法还包括接收铺路材料的温度数据,并将温度数据与由位置温度模型预测的数据进行比较。 在实际数据与模型预测数据不同的情况下调整铺路系统的运行。 提供一种具有电子控制单元的铺路系统和控制系统,电子控制单元被配置为将电子温度数据与铺路材料的位置温度模型进行比较。 电子控制单元可以基于将实际数据与模型预测数据进行比较来控制铺路系统的机器,并且可以基于实际数据和模型之间的差异来进一步更新用于铺设工作区域的方案和位置温度模型本身中的一个或两个 预测数据。 包括与模型的比较的铺路工作区域的完整温度曲线可以记录在用于法医和预测分析的计算机可读存储器中。
    • 9. 发明授权
    • Method and apparatus for controlling the inflation pressure of pneumatic wheels
    • 用于控制气动轮的充气压力的方法和装置
    • US06218935B1
    • 2001-04-17
    • US09257562
    • 1999-02-25
    • Paul T. CorcoranEverett G. Brandt
    • Paul T. CorcoranEverett G. Brandt
    • B60C2300
    • B60C23/002B60C23/0408
    • A method and apparatus for controlling inflation pressure of at least one pneumatic wheel on a machine is disclosed. This includes determining a ground speed or ground acceleration of the machine and determining a rotational velocity or rotational acceleration of a drivetrain for the machine as well as adjusting the inflation pressure in response to a relationship between the ground speed of the machine and the rotational velocity of the drivetrain for the machine or the ground acceleration of the machine and rotational acceleration of the drivetrain for the machine. The temperature of and weight load applied to pneumatic wheel can also be utilized in altering the inflation pressure of the pneumatic wheel. This data may be stored and inflation pressure of at least one pneumatic wheel may be controlled based on this previously stored data.
    • 公开了一种用于控制机器上的至少一个气动轮的充气压力的方法和装置。 这包括确定机器的地面速度或地面加速度并且确定用于机器的传动系的旋转速度或旋转加速度以及响应于机器的地面速度与转速之间的关系来调节充气压力 机器的传动系统或机器的地面加速度和机器传动系的旋转加速度。 施加到气动轮的温度和重量负荷也可用于改变气动轮的充气压力。 可以存储该数据,并且可以基于先前存储的数据来控制至少一个气动轮的充气压力。