IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0058506
(2005-02-15)
|
등록번호 |
US-7376529
(2008-05-20)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
10 인용 특허 :
35 |
초록
▼
A valve tester system is disclosed that comprises a valve tester assembly for rotating a valve stem of a valve. The valve tester assembly may include a support, a rotation element mounted on the support for rotating a valve during a rotation event, a control element for controlling aspects of the ro
A valve tester system is disclosed that comprises a valve tester assembly for rotating a valve stem of a valve. The valve tester assembly may include a support, a rotation element mounted on the support for rotating a valve during a rotation event, a control element for controlling aspects of the rotation event of the valve by the rotation element, and an element for detecting a location of the valve tester assembly during the rotation event of the valve. In some embodiments of the invention, the element for detecting the location of the valve tester assembly includes a Global Positioning Satellite (GPS) receiver. In some embodiments, the GPS receiver is integral with the control element.
대표청구항
▼
I claim: 1. A valve tester system comprising: a valve tester assembly for rotating a valve stem of a valve, comprising: a support; rotation means mounted on the support for rotating a valve during a rotation event; control means for controlling aspects of the rotation event of the valve by the rota
I claim: 1. A valve tester system comprising: a valve tester assembly for rotating a valve stem of a valve, comprising: a support; rotation means mounted on the support for rotating a valve during a rotation event; control means for controlling aspects of the rotation event of the valve by the rotation means; and means for detecting a location of the valve tester assembly during the rotation event of the valve; the control means causing the detecting means to detect the location of the valve tester assembly in response to rotation by the rotation means. 2. The valve tester system of claim 1 wherein the means for detecting the location of the valve tester assembly includes a Global Positioning Satellite (GPS) signal receiver. 3. The valve tester system of claim 2 wherein the GPS signal receiver is integral with the control means. 4. The valve tester system of claim 2 wherein the GPS receiver is separable from the control means and is configured to communicate with the control means. 5. The valve tester system of claim 1 wherein the valve tester assembly includes means for recording the location of the valve tester assembly during the rotation event. 6. The valve tester system of claim 1 wherein the valve tester assembly includes data storage. 7. The valve tester system of claim 1 wherein the data storage includes rotation parameter data associated with at least two types of valves. 8. The valve tester system of claim 1 additionally comprising an articulated arm assembly for mounting the support of the valve tester assembly to a vehicle. 9. The valve tester system of claim 1 additionally comprising means for recording characteristics of the rotation event of the valve in a record in response to rotation by the rotation means, the record including the location of the valve tester assembly at the time of the rotation event and a time and date of the rotation event. 10. The valve tester system of claim 9 wherein the characteristics of the rotation event recorded by the recording means further includes a peak torque level applied to the valve by the rotation means. 11. The valve tester system of claim 9 wherein the characteristics of the rotation event recorded by the recording means further includes a maximum revolution speed by the rotation means. 12. A valve tester system comprising: a valve tester assembly for rotating a valve stem of a valve, comprising: a support; a motor mounted on the support and configured to rotate a valve during a rotation event; a controller configured to control aspects of the rotation event of the valve by the motor; and a Global Positioning Satellite (GPS) signal receiver configured to detect a location of the valve tester assembly during the rotation event of the valve; wherein the controller is configured to cause the GPS signal receiver to detect the location of the valve tester assembly in response to rotation by the motor. 13. The valve tester system of claim 12 wherein the GPS signal receiver is integral with the controller. 14. The valve tester system of claim 12 wherein the GPS signal receiver is separable from the controller and is configured to communicate with the controller means. 15. The valve tester system of claim 12 wherein the valve tester assembly includes data storage configured to record the location of the valve tester assembly during the rotation event. 16. The valve tester system of claim 12 wherein the data storage includes rotation parameter data associated with at least two types of valves. 17. The valve tester system of claim 12 additionally comprising an articulated arm assembly for mounting the support of the valve tester assembly to a vehicle. 18. The valve tester system of claim 12 wherein the GPS signal receiver detects the location of the valve tester assembly while the valve is being rotated by the valve tester assembly. 19. The valve tester system of claim 12 additionally comprising a memory controller by the controller to have characteristics of the rotation event of the valve recorded in a record in response to rotation by the motor, the record including the location of the valve tester assembly at the time of the rotation event and a time and date of the rotation event. 20. The valve tester system of claim 19 wherein the characteristics of the rotation event recorded by the recording means further includes a peak torque level applied to the valve by the motor. 21. The valve tester system of claim 19 wherein the characteristics of the rotation event recorded by the recording means further includes a maximum revolution speed by the motor. 22. The valve tester system of claim 12 additionally comprising a display responsive to the controller and in communication with the GPS signal receiver, the display being configured to display a location of the valve tester assembly prior to the rotation event. 23. A method of testing a valve, comprising: positioning a valve tester assembly above the valve with an articulated arm assembly having a first elongated arm and a second elongated arm, the assembly being pivotable about a vertical axis, the first and second arms having a proximate and distal ends, the proximate end of the first arm being adapted for mounting on a support, the proximal end of the second arm coupled to the distal end of the first arm, the valve tester assembly mounted at the distal end of the second arm, the valve tester assembly including a motor, motor control, a GPS which locates the location of the valve tester assembly, and a rotating connection for rotation by the motor, the rotating connection being configured to connect to a valve to move the valve between and open and closed position, the motor control effective for controlling the rotation of the motor and the valve; detecting the location of the valve tester assembly with the GPS; engaging the valve with the rotating connection of the valve tester assembly; rotating the valve using the valve tester assembly to provide a rotation event; detecting the rotation event; and reporting data concerning the detected location and rotation event to a data storage device. 24. The method of claim 23 wherein the detection of the location of the valve tester assemble by the GPS and the reporting the data concerning the detected location are performed while the valve tester assembly is rotating the valve. 25. The method of claim 23 wherein the positioning of the valve tester assembly is done by grasping the assembly by hand and moving it. 26. The method of claim 23 wherein the method further includes creating a map of the location of tested valves from the data reported to the data storage device. 27. The method of claim 23 wherein the first arm and second arm are resiliently biased relative to each other. 28. A valve tester system comprising: an articulated arm assembly having a first elongated arm and a second elongated arm, the assembly being pivotable about a vertical axis, the first and second arms having a proximate and distal ends, the proximate end of the first arm being adapted for mounting on a support, the proximal end of the second arm coupled to the distal end of the first arm; a data storage device; and a valve tester assembly mounted at the distal end of the second arm, the valve tester assembly including a motor, motor control, a rotating connection for rotation by the motor, the connection being configured to connect to a valve to move the valve between and open and closed position, the motor control effective for controlling the rotation of the motor, a shaft for connecting the rotating connection with a valve being tested, and a GPS which detects the location of the valve tester assembly and provides location data which is stored in the data storage device. 29. The valve tester system of claim 28 wherein each of the first and second elongated arms are pivotal around a horizontal axis. 30. The valve tester system of claim 28 wherein the data storage device stores data concerning the amount of torque used to rotate valves. 31. The valve tester system of claim 28 wherein, the second arm is pivotal around a horizontal axis and a first resilient biasing assembly is coupled between the first arm and the second arm which resiliently biases the first and second arm relative to each other. 32. The valve tester system of claim 28 wherein the shaft is vertically adjustable. 33. A valve tester system comprising: a mobile base; a data storage device; an articulated arm assembly adapted for coupling to the mobile base, the arm assembly including a first arm adapted for coupling to the mobile base, the arm assembly including a second arm pivotally coupled to the first arm, the arm assembly including a third arm pivotally coupled to the second arm, a first resilient biasing assembly coupled between the first arm and the second arm which resiliently biases the first and second arm relative to each other, and a second resilient biasing assembly; and a valve tester assembly mounted on the third arm of the articulated arm assembly, the valve tester assembly including a motor, motor control, a rotating connection for rotation by the motor, the connection being configured to connect to a valve to move the valve between and open and closed position, the motor control effective for controlling the rotation of the motor, and a GPS which detects the location of the valve tester assembly and provides location data concerning the valve tester assembly which data is stored in the data storage device, a shaft between the rotating assembly, the shaft for rotating the shaft and the valve, the second resilient biasing assembly coupled between the valve tester assembly and the third arm, the second resilient biasing assembly resiliently biasing the valve tester assembly relative to the third arm. 34. The valve tester system of claim 33 wherein the data storage device stores data concerning the amount of torque used to rotate a valve.
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