公开(公告)号：US09573434B2

公开(公告)日：2017-02-21

申请号：US14587615

申请日：2014-12-31

Applicant: GE Energy Oilfield Technology, Inc.

Inventor： John C. Boot ,  Thomas G. Szudajski ,  Mongquy V. To

IPC: B60G11/27 ,  B60P3/073 ,  B60G3/01 ,  G01N33/24 ,  B60S9/12 ,  B60D1/00 ,  B60S9/02

CPC classification number: B60G11/27 ,  B60D1/00 ,  B60G3/01 ,  B60G2202/24 ,  B60G2300/04 ,  B60G2500/10 ,  B60P3/073 ,  B60P7/16 ,  B60S9/02 ,  B60S9/12 ,  G01N33/24 ,  G01N2201/0216 ,  G01N2201/10

Abstract: A chassis that supports a scanning system that images core samples from a wellbore. The chassis provides a mounting base for the scanning system for transportation of the scanning system, and also while the scanning system is in use and stationary. A suspension system mounts between the chassis and wheels that facilitate transportation of the chassis. The suspension system isolates the scanning system from shock and vibration encountered by the wheels while transporting the chassis and scanning system. In an example the chassis is a trailer, and which is pulled by a tractor. Legs can telescope downward from the chassis and against the surface on which the chassis is disposed. Airbags are strategically located within the chassis that absorb the vibration and thereby isolate the scanning system from the shock and vibration. Locations of the airbags include paths of force transmission between the wheels and the trailer.

Abstract translation: 支持扫描系统的底盘，可将井眼中的核心样品进行成像。 底盘为扫描系统提供了用于扫描系统运输的安装基座，以及扫描系统在使用和静止时的安装基座。 悬挂系统安装在底盘和车轮之间，便于机箱的运输。 悬挂系统将扫描系统与运输车架和扫描系统的车轮碰撞和振动隔离开来。 在一个例子中，底盘是拖车，由拖拉机牵引。 腿可以从底盘向下伸出并靠在底盘所在的表面上。 安全气囊在战略上位于底盘内，吸收振动，从而将扫描系统与震动和振动隔离开来。 安全气囊的位置包括车轮和拖车之间的力传递路径。

公开(公告)号：US20160185174A1

公开(公告)日：2016-06-30

申请号：US14587615

申请日：2014-12-31

Applicant: GE Energy Oilfield Technology, Inc.

Inventor： John C. Boot ,  Thomas G. Szudajski ,  Mongquy V. To

IPC: B60G11/27 ,  G01N33/24 ,  G01N21/25 ,  B60P3/073 ,  B60G3/01

CPC classification number: B60G11/27 ,  B60D1/00 ,  B60G3/01 ,  B60G2202/24 ,  B60G2300/04 ,  B60G2500/10 ,  B60P3/073 ,  B60P7/16 ,  B60S9/02 ,  B60S9/12 ,  G01N33/24 ,  G01N2201/0216 ,  G01N2201/10

Abstract: A chassis that supports a scanning system that images core samples from a wellbore. The chassis provides a mounting base for the scanning system for transportation of the scanning system, and also while the scanning system is in use and stationary. A suspension system mounts between the chassis and wheels that facilitate transportation of the chassis. The suspension system isolates the scanning system from shock and vibration encountered by the wheels while transporting the chassis and scanning system. In an example the chassis is a trailer, and which is pulled by a tractor. Legs can telescope downward from the chassis and against the surface on which the chassis is disposed. Airbags are strategically located within the chassis that absorb the vibration and thereby isolate the scanning system from the shock and vibration. Locations of the airbags include paths of force transmission between the wheels and the trailer.

Abstract translation: 支持扫描系统的底盘，可将井眼中的核心样品进行成像。 底盘为扫描系统提供了用于扫描系统运输的安装基座，以及扫描系统在使用和静止时的安装基座。 悬挂系统安装在底盘和车轮之间，便于机箱的运输。 悬挂系统将扫描系统与运输车架和扫描系统的车轮碰撞和振动隔离开来。 在一个例子中，底盘是拖车，由拖拉机牵引。 腿可以从底盘向下伸出并靠在底盘所在的表面上。 安全气囊在战略上位于底盘内，吸收振动，从而将扫描系统与震动和振动隔离开来。 安全气囊的位置包括车轮和拖车之间的力传递路径。

公开(公告)号：US10031148B2

公开(公告)日：2018-07-24

申请号：US14587417

申请日：2014-12-31

Applicant: GE Energy Oilfield Technology, Inc.

Inventor： Thomas G. Szudajski ,  John C. Boot

IPC: G01N35/00 ,  G01N33/24 ,  B25J9/16 ,  G01N21/3581 ,  G01N21/359 ,  G01N21/65

Abstract: An automated system for handling core samples in and out of an imaging device retrieves the samples from a staging area. During handling, the identity of each core sample is known to the system so that the imaging results are correlated appropriately. The system positions the core sample so the vertical and slab side orientations of the core sample discernable during handling. Core samples are staged in a location, and the automated system includes a robotic arm, which senses the core sample to discern its vertical and slab slot orientations, and then loads the core sample into the imaging device. When imaging is complete, the automated system removes the core sample from the imaging device; and in designated circumstances, transfers the core sample to a location for further analysis. In one example the further analysis is based on analyzing areas of interest identified in the core sample.

公开(公告)号：US20160187361A1

公开(公告)日：2016-06-30

申请号：US14587417

申请日：2014-12-31

Applicant: GE Energy Oilfield Technology, Inc.

Inventor： Thomas G. Szudajski ,  John C. Boot

IPC: G01N35/00 ,  E21B47/00 ,  G06K9/52 ,  G01N33/24 ,  B25J9/16

CPC classification number: G01N35/00732 ,  B25J9/1679 ,  G01N21/3581 ,  G01N21/359 ,  G01N21/65 ,  G01N33/24 ,  G01N35/0099 ,  G01N2035/00851 ,  G05B2219/45045

Abstract: An automated system for handling core samples in and out of an imaging device retrieves the samples from a staging area. During handling, the identity of each core sample is known to the system so that the imaging results are correlated appropriately. The system positions the core sample so the vertical and slab side orientations of the core sample discernable during handling. Core samples are staged in a location, and the automated system includes a robotic arm, which senses the core sample to discern its vertical and slab slot orientations, and then loads the core sample into the imaging device. When imaging is complete, the automated system removes the core sample from the imaging device; and in designated circumstances, transfers the core sample to a location for further analysis. In one example the further analysis is based on analyzing areas of interest identified in the core sample.

Abstract translation: 用于处理进出成像设备的核心样品的自动化系统从分段区域检索样品。 在处理过程中，系统已知每个核心样本的身份，从而使成像结果相适应。 系统定位芯样品，使核心样品的垂直和平板侧面取向在处理过程中可辨别。 核心样本在一个位置进行，自动化系统包括一个机器人手臂，其感测核心样本以辨别其垂直和平板狭缝取向，然后将核心样本加载到成像装置中。 当成像完成时，自动化系统从成像装置中移除核心样品; 并在指定的情况下将核心样本转移到一个位置进行进一步分析。 在一个例子中，进一步的分析是基于分析核心样本中确定的兴趣领域。

公开(公告)号：US20160187313A1

公开(公告)日：2016-06-30

申请号：US14587247

申请日：2014-12-31

Applicant: GE Energy Oilfield Technology, Inc.

Inventor： Thomas G. Szudajski ,  John C. Boot

IPC: G01N33/24 ,  G01N23/00

CPC classification number: G01N33/24 ,  G01N23/046 ,  G01N33/241 ,  G01N2223/311 ,  G01N2223/616

Abstract: A system for analyzing a cote sample from a wellbore, where the analysis takes place in the field and proximate the wellbore. The system includes a trailer with a unit for scanning the core sample and obtaining information within the sample. The unit is housed in a cabinet having a cabinet interior that is maintained at a set temperature and humidity with conditioned air. The cabinet also has sidewalls that define a pressure barrier between the inside of the cabinet and an isolation space that is between the cabinet and inner surface of the trailer. The unit includes a manipulator system for moving the core sample through a rotating scan source in the scanning unit. A sample enclosure provides a barrier between the ambient zone surrounding the sample and the isolation space in the cabinet.

Abstract translation: 用于从井筒分析小样品的系统，其中分析在现场进行并且靠近井眼。 该系统包括具有用于扫描核心样品并获得样品内的信息的单元的拖车。 该单元被容纳在具有机柜内部的机柜中，该机柜内部通过调节空气维持在设定的温度和湿度。 机柜还具有侧壁，其限定了机柜内部和机柜与拖车内表面之间的隔离空间的压力屏障。 该单元包括用于通过扫描单元中的旋转扫描源移动核心样本的操纵器系统。 样品外壳在围绕样品的环境区域和机柜中的隔离空间之间提供屏障。