A device for measuring a gap between two objects located remotely from a user includes a base, a slider and a wedge. The slider is slidably received in the base and the wedge is attached to the slider and also slidably received in the base. A push-pull cable has a proximal end connected to the slide
A device for measuring a gap between two objects located remotely from a user includes a base, a slider and a wedge. The slider is slidably received in the base and the wedge is attached to the slider and also slidably received in the base. A push-pull cable has a proximal end connected to the slider. The wedge is inclined at a predetermined angle and slides along an angled surface of the base such that a force applied to a distal end of the cable causes an upper surface of the wedge to move vertically forcing the wedge and the base into respective contact with the two objects forming the gap. By measuring the distance that the push-pull cable slides, the vertical distance traveled by the wedge and thus a measurement of the gap may be determined.
대표청구항▼
1. A device for measuring a distance between two objects, comprising: a base including an upper surface and a lower surface, the upper surface being disposed at an incline to the lower surface;a wedge having a top surface and a bottom surface, the bottom surface being arranged to slidably engage the
1. A device for measuring a distance between two objects, comprising: a base including an upper surface and a lower surface, the upper surface being disposed at an incline to the lower surface;a wedge having a top surface and a bottom surface, the bottom surface being arranged to slidably engage the upper surface of the base, the bottom surface being disposed at an incline that matches the incline of the upper surface such that the top surface of the wedge and the lower surface of the base are disposed parallelly to one another; anda flexible actuator having a first end coupled to the wedge such that a force applied to a second end of the flexible actuator causes the bottom surface of the wedge to slide relative to the upper surface of the base thereby causing a distance change between the parallelly disposed top surface of the wedge and lower surface of the base,wherein the flexible actuator includes an inner cable slidably received within an outer casing, andwherein the force applied to the distal portion of the flexible actuator causes the inner cable to slide relative to the outer casing. 2. The device of claim 1, further comprising a slider slidably coupled to the base and slidably coupled to the wedge. 3. The device of claim 2, wherein the flexible actuator is coupled to the wedge through a direct connection with the slider via connector structure of the flexible actuator. 4. The device of claim 3, wherein the first end of the flexible actuator has a threaded connection with the slider. 5. The device of claim 3, wherein the slider has a hollow portion formed therein for receiving the connector structure. 6. The device of claim 2, wherein the slider has a connecting structure which connects with an attachment structure of the wedge to enable relative sliding movement between the slider and the wedge in a direction substantially perpendicular to the top surface of the wedge. 7. The device of claim 6, wherein the connecting structure of the slider has channels formed therein, and the attachment structure of the wedge has protrusions extending therefrom for sliding engagement with the channels. 8. The device of claim 1, wherein the wedge has a pair of sliding grooves formed therein, the sliding grooves being disposed on opposing sides of the wedge extending along the wedge in parallel with the bottom surface of the wedge. 9. The device of claim 8, wherein the base includes a pair of guide rails configured to slidingly support the sliding grooves on the wedge. 10. The device of claim 1, further comprising a slider slidably coupled to the base. 11. The device of claim 1, wherein the base has a cavity arranged to slidably receive the inner cable. 12. The device of claim 1, wherein the distal portion of the flexible actuator comprises a sliding indicator arranged to slide along a measuring scale such that movement of the inner cable relative to the outer casing can be determined. 13. The device of claim 12, wherein the flexible actuator has a threaded connection with the base. 14. A method of measuring a gap between a rotor and a stator in a turbine with a gap measuring device, the gap measuring device comprising a base including an upper surface and a lower surface such that the upper surface is disposed at an incline to the lower surface, a wedge having a top surface and a bottom surface such that the bottom surface is arranged to slidably engage the upper surface of the base wherein the bottom surface is disposed at an incline that matches the incline of the upper surface such that the top surface of the wedge and the lower surface of the base are disposed parallelly to one another, and a flexible actuator having a first end coupled to the wedge such that a force applied to a second end of the flexible actuator causes the bottom surface of the wedge to slide relative to the upper surface of the base thereby causing a distance change between the parallelly disposed top surface of the wedge and lower surface of the base, the method comprising: inserting the base and the wedge into the gap between the rotor and the stator;with the flexible actuator, pushing the base and the wedge to a desired location in the gap while maintaining the second end of the flexible actuator exposed from the gap; andexerting a force on the second end of the flexible actuator thereby causing the top surface of the wedge to engage the rotor and the lower surface of the base to engage the stator. 15. The method of claim 14, wherein the flexible actuator includes an inner cable slidably received within an outer casing, further comprising measuring a distance-traveled that the inner cable moves relative to the outer casing when the force is applied. 16. The method of claim 15, wherein the step of exerting a force on the second end of the flexible actuator causes a distance change between the parallelly disposed top surface of the wedge and lower surface of the base. 17. The method of claim 16, wherein the incline of the bottom surface of the wedge is a predetermined angle. 18. The method of claim 17, calculating the distance change using the predetermined angle and the distance-traveled. 19. The method of claim 18, wherein after the step of exerting a force on the second end of the flexible actuator, further comprising pushing the base and the wedge to another desired location in the gap. 20. The method of claim 19, further comprising correcting a position of the stator relative to the rotor using the calculated distance change.
Ising, Ulrich; Reichmann, Marc; Keller, Thomas, Apparatus and method for the chemical mechanical polishing of the surface of circular flat workpieces, in particular semi-conductor wafers.
Malin Comas (Mauren LIX) Steigmeier Edgar F. (Hedingen CHX) Nesensohn Thomas (Batschuns ATX) Sawatzki Harry L. (Schaan LIX) Auderset Heinrich (Aeugst CHX) Schmid Gert (Thringen CHX), Apparatus for surface inspections.
Machek James E. (Bradfordwoods PA) Rhinehart Edward J. (Monroeville PA), Device for selectively producing incremental joint movement in a patient in opposite directions.
Weber, John M.; Struble, Jr., John Joseph; Herman, Jr., Joseph Francis; Gundlach, John Geoffrey; Dittus, Karl Klaus, Floating cable connector retention module.
Isenberg Gerhard (Dachau DT) Bloch Peter (Dachau DT) Tuzinsky Wolfgang (Munich DT), Flow machine for an aggressive, radioactive or special-purity flow medium.
Heimberg Wolfgang (Ebersberg DEX) Hellmich Wolfram (Munich DEX) Kogl Franz (Kaufbeuren DEX) Malatinszky Paul (Bulle CHX), Fuel injection device according to the solid-state energy storage principle for internal combustion engines.
Heimberg Wolfgang (Ebersberg DEX) Hellmich Wolfram (Munich DEX) Kogl Franz (Kaufbeuren DEX) Malatinszky Paul (Bulle CHX), Fuel injection device according to the solid-state energy storage principle for internal combustion engines.
George F. Titterton, III ; Robert J. Selinsky, Jr. ; John William Green ; Randal G. McKinney, Fuel nozzle guide for gas turbine engine and method of assembly/disassembly.
Dunstan Ericson M. (Hidden Hills CA) Gervais William J. (Northridge CA) McClelland S. Barry (Woodland Hills CA), High precision floppy disc memory system.
Schön, Thomas, Housing of a weighing scale with a a circumferential edqe that rims the circumferential separating wall, so that when the housing is in a closed state, the circumferential edge co-acts with an inside surface of the second housing part to define a second enclosed space serving to house the electronic components.
Kenyon, Barton John; Yee, Arthur Kin-Wai; Primrose, Rohan Neil; Saada, Jim; Snow, John Michael; Sapula, Marek Tomasz; Crumblin, Geoffrey; Trevor-Wilson, Duncan Lovel; Lithgow, Perry David; Virr, Alexander; Richmond, Donald Angus; Janiak, Michael Thomas; Kao, Dan; Bath, Andrew Roderick, Humidifier with removable water tank.
da Silva, Othon Luiz Pinheiro, Immersed magnet ring secured to radially outermost ends of hydraulic turbine blades and gap between rotor and stator filled with water.
Ghetzler Richard ; Wojtalik ; Jr. Jerome F. ; Kruse Neils ; Stephens Kendal R. ; Schmulenson Harold, Low drag ducted Ram air turbine generator and cooling system.
Bernardo,Alexander Beltran; Burkhardt,Gary Lane; Nicholls,Arthur Edwin; Gray,Walter Mac, Measurement of constitutive properties of a powder specimen subject to compressive axial and radial loading, using eddy current sensing.
Schiess Wolfgang (Dresden DDX) Thorandt Herbert (Dresden DDX), Method and apparatus for the protection of analyzers and other sensitive components from soiling and corrosion.
van der Walt, Nicolaas T., Method of and apparatus for detecting cross sectional area variations in an elongate object by the non-inductive measurement of radial flux variations.
Perlov Ilya ; Gantvarg Eugene ; Lee Harry Q. ; Somekh Sasson ; Tolles Robert D., Radially oscillating carousel processing system for chemical mechanical polishing.
Gaul Norbert (Solms DEX) Reinheimer Guenter (Biebertal DEX) Weimar Peter (Staufenberg DEX), Revolving nose piece for optical components and process for adjusting the number of revolutions thereof.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.