Part temperature measurement device
First Claim
Patent Images
1. A system for measuring a temperature of a rotating workpiece, the system comprising:
- a deposition chamber;
a crucible within the deposition chamber, the crucible configured to hold a deposition feedstock material;
an energy source configured to heat the deposition feedstock material in the crucible so as to evaporate the deposition feedstock material;
a drive system with a rotatable workpiece holder rotatably coupled to a stationary portion, the rotatable workpiece holder configured to receive the workpiece and to rotate the workpiece proximate the crucible such that at least a portion of the evaporated deposition feedstock material can impinge the rotating workpiece;
a temperature sensor coupled to the rotatable workpiece holder and configured to contact and rotate with the workpiece held by the rotatable workpiece holder so as to sense the temperature of the workpiece during rotation and to generate a signal indicative of the sensed temperature;
a first sensor wire and a second sensor wire electrically connected to the temperature sensor;
a dynamic electrical connection configured to electrically communicate the signal indicative of the sensed temperature from the rotatable workpiece holder to the stationary portion;
a control system configured to measure, based on the electrically communicated signal indicative of the sensed temperature, the temperature of the workpiece during rotation; and
a contact ring assembly comprising;
a housing attached to the stationary portion;
a cover configured to rotate relative to the housing, wherein the cover is attached to the rotatable workpiece holder;
a first rotating contact ring and a second rotating contact ring attached to the cover and electrically connected to the temperature sensor via a first sensor wire and a second sensor wire respectively;
a first stationary contact ring and a second stationary contact ring disposed in the housing and surrounding the first and second rotating rings respectively, wherein the first and second stationary contact rings are configured to receive an electrical signal from the first and second rotating contact rings respectively; and
a first reference wire and a second reference wire electrically connected to the first and second stationary contact rings respectively and that are configured to relay the electrical signal received from the first and second stationary contact rings to a reference sensor.
4 Assignments
0 Petitions
Accused Products
Abstract
A system for measuring a temperature of a rotating workpiece comprises a deposition chamber, a crucible within the deposition chamber, an energy source, a drive system, a temperature sensor, first and second sensor wires, a dynamic electrical connection, and a control system. The crucible is configured to hold a deposition feedstock material. The energy source is configured to evaporate the deposition feedstock material. The drive system is configured to rotate the workpiece such that the evaporated deposition feedstock material can impinge the rotating workpiece. The temperature sensor is configured to sense the temperature of the rotating workpiece. The first and second sensor wires are electrically connected to the temperature sensor. The dynamic electrical connection is configured to electrically communicate the signal indicative of the sensed temperature from the rotatable workpiece holder to the stationary portion. The control system is configured to measure the temperature of the workpiece during rotation.
9 Citations
9 Claims
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1. A system for measuring a temperature of a rotating workpiece, the system comprising:
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a deposition chamber; a crucible within the deposition chamber, the crucible configured to hold a deposition feedstock material; an energy source configured to heat the deposition feedstock material in the crucible so as to evaporate the deposition feedstock material; a drive system with a rotatable workpiece holder rotatably coupled to a stationary portion, the rotatable workpiece holder configured to receive the workpiece and to rotate the workpiece proximate the crucible such that at least a portion of the evaporated deposition feedstock material can impinge the rotating workpiece; a temperature sensor coupled to the rotatable workpiece holder and configured to contact and rotate with the workpiece held by the rotatable workpiece holder so as to sense the temperature of the workpiece during rotation and to generate a signal indicative of the sensed temperature; a first sensor wire and a second sensor wire electrically connected to the temperature sensor; a dynamic electrical connection configured to electrically communicate the signal indicative of the sensed temperature from the rotatable workpiece holder to the stationary portion; a control system configured to measure, based on the electrically communicated signal indicative of the sensed temperature, the temperature of the workpiece during rotation; and a contact ring assembly comprising; a housing attached to the stationary portion; a cover configured to rotate relative to the housing, wherein the cover is attached to the rotatable workpiece holder; a first rotating contact ring and a second rotating contact ring attached to the cover and electrically connected to the temperature sensor via a first sensor wire and a second sensor wire respectively; a first stationary contact ring and a second stationary contact ring disposed in the housing and surrounding the first and second rotating rings respectively, wherein the first and second stationary contact rings are configured to receive an electrical signal from the first and second rotating contact rings respectively; and a first reference wire and a second reference wire electrically connected to the first and second stationary contact rings respectively and that are configured to relay the electrical signal received from the first and second stationary contact rings to a reference sensor. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of measuring temperature, the method comprising:
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attaching a temperature sensor to a workpiece at a first location; inserting a portion of a fixture with the workpiece into a deposition chamber of a vapor deposition system, wherein the vapor deposition system comprises; a crucible within the deposition chamber, the crucible configured to hold a deposition feedstock material; an energy source configured to heat the deposition feedstock material in the crucible so as to evaporate the deposition feedstock material; a drive system with a rotatable workpiece holder rotatably coupled to a stationary portion, the rotatable workpiece holder configured to receive the workpiece and to rotate the workpiece proximate the crucible such that at least a portion of the evaporated deposition feedstock material can impinge the rotating workpiece; a temperature sensor coupled to the rotatable workpiece holder and configured to contact and rotate with the workpiece held by the rotatable workpiece holder so as to sense the temperature of the workpiece during rotation and to generate a signal indicative of the sensed temperature; a first sensor wire and a second sensor wire electrically connected to the temperature sensor; a dynamic electrical connection configured to electrically communicate the signal indicative of the sensed temperature from the rotatable workpiece holder to the stationary portion; a control system configured to measure, based on the electrically communicated signal indicative of the sensed temperature, the temperature of the workpiece during rotation; and a contact ring assembly comprising; a housing attached to the stationary portion; a cover configured to rotate relative to the housing, wherein the cover is attached to the rotatable workpiece holder; a first rotating contact ring and a second rotating attached to the cover and electrically connected to the temperature sensor via a first sensor wire and a second sensor wire respectively; and a first stationary contact ring and a second stationary contact ring disposed in the housing and surrounding the first and second rotating rings respectively, wherein the first and second stationary contact rings are configured to receive an electrical signal from the first and second rotating contact rings respectively; rotating the workpiece; measuring a temperature of the workpiece with the temperature sensor as the workpiece is rotated; relaying a sensor electrical signal through the first and second sensor wires to the first and second rotating contact rings respectively, wherein the sensor electrical signal represents a voltage across the temperature sensor; transmitting the sensor electrical signal from the first and second rotating contact rings to the first and second stationary contact rings respectively; receiving the sensor electrical signal from the first and second rotating contact rings with the first and second stationary contact rings respectively; relaying the sensor electrical signal to a reference juncture; relaying the sensor electrical signal to a voltmeter; and measuring a difference in voltage with the voltmeter. - View Dependent Claims (8, 9)
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Specification
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Current AssigneeRtx Corporation
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Original AssigneeUnited Technologies Corporation (Raytheon Technologies Corporation d/b/a RTX)
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InventorsNeal, James W., Maloney, Michael J., Schlichting, Kevin W., Litton, David A.
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Primary Examiner(s)Huls, Natalie
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Assistant Examiner(s)Soto, Janice M
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Application NumberUS15/426,331Publication NumberTime in Patent Office1,183 DaysField of SearchUS Class CurrentCPC Class CodesC23C 14/243 Crucibles for source materi...C23C 14/30 by electron bombardmentC23C 14/505 for rotation of the substratesC23C 14/54 Controlling or regulating t...G01K 1/14 Supports; Fastening devices...G01K 13/08 in rotary movementG01K 7/02 using thermoelectric elemen...G01N 25/00 Investigating or analyzing ...H01J 2237/2001 Maintaining constant desire...H01J 2237/20214 RotationH01J 37/3005 Observing the objects or th...H01J 37/3178 for applying thin layers on...
