Subclass |
| Title |
ClassTitle
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| ===>
THERMAL MEASURING AND TESTING
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| | |
1 | ![[Patents]](../gifs/ps.gif) | THERMAL CALIBRATION SYSTEM |
2 | ![[Patents]](../gifs/ps.gif) | . By thermal radiation emitting device (e.g., blackbody cavity) |
3 | ![[Patents]](../gifs/ps.gif) | . By immersion in liquid having controlled temperature |
4 | ![[Patents]](../gifs/ps.gif) | LEAK OR FLAW DETECTION |
5 | ![[Patents]](../gifs/ps.gif) | . With heating or cooling of specimen for test |
6 | ![[Patents]](../gifs/ps.gif) | DISTANCE OR ANGLE |
7 | ![[Patents]](../gifs/ps.gif) | . Thickness, erosion, or deposition |
8 | ![[Patents]](../gifs/ps.gif) | FLAMMABILITY TESTING |
9 | ![[Patents]](../gifs/ps.gif) | EMISSIVITY DETERMINATION |
10 | ![[Patents]](../gifs/ps.gif) | DIFFERENTIAL THERMAL ANALYSIS |
11 | ![[Patents]](../gifs/ps.gif) | . Detail of electrical heating control |
12 | ![[Patents]](../gifs/ps.gif) | . Detail of sample holder or support therefor |
13 | ![[Patents]](../gifs/ps.gif) | . . Formed by thermoelectric element |
14 | ![[Patents]](../gifs/ps.gif) | THERMAL GRAVIMETRIC ANALYSIS |
15 | ![[Patents]](../gifs/ps.gif) | BY APPLYING KNOWN THERMAL GRADIENT (E.G., INDICATION OF RESPONSE BY LOCATION) |
16 | ![[Patents]](../gifs/ps.gif) | TRANSFORMATION POINT DETERMINATION (E.G., DEW POINT, BOILING POINT) |
17 | ![[Patents]](../gifs/ps.gif) | . By change in optical property (e.g., transmission) |
18 | ![[Patents]](../gifs/ps.gif) | . . By reflection (e.g., polished surface) |
19 | ![[Patents]](../gifs/ps.gif) | . . . Sensed by instrument (e.g., photocell) |
20 | ![[Patents]](../gifs/ps.gif) | . . . . Controlling heating or cooling |
21 | ![[Patents]](../gifs/ps.gif) | . By electrical condition of specimen |
22 | ![[Patents]](../gifs/ps.gif) | . By change in motion of movable element |
23 | ![[Patents]](../gifs/ps.gif) | . . Driven element |
24 | ![[Patents]](../gifs/ps.gif) | . By change in pressure of flow rate |
25 | ![[Patents]](../gifs/ps.gif) | . By thermal arrest (e.g., time-temperature curve) |
26 | ![[Patents]](../gifs/ps.gif) | . . Of molten metal (e.g., carbon content) |
27 | ![[Patents]](../gifs/ps.gif) | . Between gaseous and liquid states |
28 | ![[Patents]](../gifs/ps.gif) | . . Dew point |
29 | ![[Patents]](../gifs/ps.gif) | HEAT FLUX MEASUREMENT |
30 | ![[Patents]](../gifs/ps.gif) | . By differential temperature measurement along undisturbed thermal gradient |
31 | ![[Patents]](../gifs/ps.gif) | CALORIMETRY |
32 | ![[Patents]](../gifs/ps.gif) | . Total radiant energy or power measurement |
33 | ![[Patents]](../gifs/ps.gif) | . With control of heat added to or lost from a sample container (e.g., isothermal calorimetry) |
34 | ![[Patents]](../gifs/ps.gif) | . . With controlled adiabatic shield |
35 | ![[Patents]](../gifs/ps.gif) | . Heat absorbing heigh temperature gas probe (e.g., enthalpy or fluid cooled probe) |
36 | ![[Patents]](../gifs/ps.gif) | . Heat value of combustion (e.g., 'calorific value') |
37 | ![[Patents]](../gifs/ps.gif) | . . Having specified control of input of mixture |
38 | ![[Patents]](../gifs/ps.gif) | . . Having bomb or cartridge ignition chamber |
39 | ![[Patents]](../gifs/ps.gif) | . Gain or loss of heat by heat utilizing load in path of heat exchange fluid |
40 | ![[Patents]](../gifs/ps.gif) | . . Determined by combining flow rate and temperature signals of heat exchange fluid |
41 | ![[Patents]](../gifs/ps.gif) | . . . Signals combined electrically |
42 | ![[Patents]](../gifs/ps.gif) | . Throttling calorimeter (e.g., steam quality) |
43 | ![[Patents]](../gifs/ps.gif) | DETERMINATION OF INHERENT THERMAL PROPERTY (E.G., HEAT FLOW COEFFICIENT) |
44 | ![[Patents]](../gifs/ps.gif) | . Thermal conductivity |
45 | ![[Patents]](../gifs/ps.gif) | THERMAL TESTING OF A NONTHERMAL QUANTITY |
46 | ![[Patents]](../gifs/ps.gif) | . With loading of specimen (e.g., stress or strain) |
47 | ![[Patents]](../gifs/ps.gif) | . . Cyclic |
48 | ![[Patents]](../gifs/ps.gif) | . . . Torsional |
49 | ![[Patents]](../gifs/ps.gif) | . . Tensile |
50 | ![[Patents]](../gifs/ps.gif) | . . . With detail of heating or cooling structure |
51 | ![[Patents]](../gifs/ps.gif) | . . Compressional |
52 | ![[Patents]](../gifs/ps.gif) | . . Bending or flexing |
53 | ![[Patents]](../gifs/ps.gif) | . Of cure or hardenability |
54 | ![[Patents]](../gifs/ps.gif) | . Of fluid volume |
55 | ![[Patents]](../gifs/ps.gif) | . Expansion or contraction characteristics (e.g., dilatometry) |
56 | ![[Patents]](../gifs/ps.gif) | . . Including electrical sensor |
57 | ![[Patents]](../gifs/ps.gif) | . Of susceptibility to thermally induced deteriouration, flaw, or failure |
100 | ![[Patents]](../gifs/ps.gif) | TEMPERATURE MEASUREMENT (E.G., THERMOMETER) |
101 | ![[Patents]](../gifs/ps.gif) | . Composite temperature-related paramenter |
102 | ![[Patents]](../gifs/ps.gif) | . . Time-temperature relationship (e.g., integral, deterioration, change) |
103 | ![[Patents]](../gifs/ps.gif) | . . . Time-temperature integration performed by particular circuit arrangement |
104 | ![[Patents]](../gifs/ps.gif) | . . . Peak (maximum or minimum) with respect to time |
105 | ![[Patents]](../gifs/ps.gif) | . . . . Indicating tube with sensing material return prevention |
106 | ![[Patents]](../gifs/ps.gif) | . . . . Permanent visual indication (i.e., irreversible) |
107 | ![[Patents]](../gifs/ps.gif) | . . . Rate of change |
108 | ![[Patents]](../gifs/ps.gif) | . . . Degree-days |
109 | ![[Patents]](../gifs/ps.gif) | . . Climate related (e.g., wind-chill factor, discomfort index) |
110 | ![[Patents]](../gifs/ps.gif) | . . Plural spaced temperature function |
111 | ![[Patents]](../gifs/ps.gif) | . . . Highest or lowest of spaced temperatures |
112 | ![[Patents]](../gifs/ps.gif) | . . . Difference or gradient |
113 | ![[Patents]](../gifs/ps.gif) | . . . . By thermoelements connected in series opposition |
114 | ![[Patents]](../gifs/ps.gif) | . . . . By current modifying elements in circuit (e.g., bridge) |
115 | ![[Patents]](../gifs/ps.gif) | . . . Space average |
116 | ![[Patents]](../gifs/ps.gif) | . . . By single sensor (e.g., elongate or with plural fluid intakes) |
117 | ![[Patents]](../gifs/ps.gif) | . By a vibratory effect (e.g., resonant frequency, acoustical) |
118 | ![[Patents]](../gifs/ps.gif) | . . Resonant frequency by fluid flow |
119 | ![[Patents]](../gifs/ps.gif) | . . Vibration velocity (e.g., echo timing) |
120 | ![[Patents]](../gifs/ps.gif) | . In spaced noncontact relationship to specimen |
121 | ![[Patents]](../gifs/ps.gif) | . . By thermally emitted radiation |
122 | ![[Patents]](../gifs/ps.gif) | . . . By microwave arrangement |
123 | ![[Patents]](../gifs/ps.gif) | . . . Transparent material measurement or compensation (e.g., spectral line, gas, particulate suspension |
124 | ![[Patents]](../gifs/ps.gif) | . . . With scanning or temperature distribution display |
125 | ![[Patents]](../gifs/ps.gif) | . . . With fluid flow purging device |
126 | ![[Patents]](../gifs/ps.gif) | . . . Having emissivity compensating or specified radiating surface |
127 | ![[Patents]](../gifs/ps.gif) | . . . Having significant frequency limitation or relationship (e.g., peak, ratio) |
128 | ![[Patents]](../gifs/ps.gif) | . . . Having significant signal handling circuitry (e.g., linearizing, emissivity compensation) |
129 | ![[Patents]](../gifs/ps.gif) | . . . Comparison with radiation reference standard |
130 | ![[Patents]](../gifs/ps.gif) | . . . Optical system structure (e.g., lens) |
131 | ![[Patents]](../gifs/ps.gif) | . . . . With radiation conducting element |
132 | ![[Patents]](../gifs/ps.gif) | . . . Sensor or mounting temperature control |
133 | ![[Patents]](../gifs/ps.gif) | . . . Ambient temperature compensated (e.g., dummy sensor) |
134 | ![[Patents]](../gifs/ps.gif) | . . Extrapolation (e.g., simulation, heat flow) |
135 | ![[Patents]](../gifs/ps.gif) | . . By fluid flow within or to sensor (e.g., convection, heat transfer, differential pressure) |
136 | ![[Patents]](../gifs/ps.gif) | . Geophysical (e.g., well bore, underwater) |
137 | ![[Patents]](../gifs/ps.gif) | . Temperature distribution or profile |
138 | ![[Patents]](../gifs/ps.gif) | . With fluid flow deflector |
139 | ![[Patents]](../gifs/ps.gif) | . Of molten metal |
140 | ![[Patents]](../gifs/ps.gif) | . . Lance (e.g., consumable) |
141 | ![[Patents]](../gifs/ps.gif) | . Combined with diverse art device |
142 | ![[Patents]](../gifs/ps.gif) | . . With other measuring device |
143 | ![[Patents]](../gifs/ps.gif) | . . . Pressure |
144 | ![[Patents]](../gifs/ps.gif) | . . With combustion engine |
145 | ![[Patents]](../gifs/ps.gif) | . . . Cooling system |
146 | ![[Patents]](../gifs/ps.gif) | . . . . Radiator cap mounted thermometer |
147 | ![[Patents]](../gifs/ps.gif) | . . With fluid carrying conduit (e.g., shower pipe) |
148 | ![[Patents]](../gifs/ps.gif) | . . . Sensor within conduit |
149 | ![[Patents]](../gifs/ps.gif) | . . With cooking compartment or door thereof (e.g., oven) |
150 | ![[Patents]](../gifs/ps.gif) | . . With bottle (e.g., nursing) |
151 | ![[Patents]](../gifs/ps.gif) | . . With confection or infant pacifier |
152 | ![[Patents]](../gifs/ps.gif) | . . With electrical component (e.g., transformer) |
153 | ![[Patents]](../gifs/ps.gif) | . . With roll or rotary specimen or support |
154 | ![[Patents]](../gifs/ps.gif) | . . . With coupling between rotating sensor and stationary electrical circuitry |
155 | ![[Patents]](../gifs/ps.gif) | . . With percing element |
156 | ![[Patents]](../gifs/ps.gif) | . . With float |
157 | ![[Patents]](../gifs/ps.gif) | . . With sampling cup |
158 | ![[Patents]](../gifs/ps.gif) | . With removable cover for sensor (e.g., disposable sheath) |
159 | ![[Patents]](../gifs/ps.gif) | . Nonelectrical, nonmagnetic, or nonmechanical temperature responsive property |
160 | ![[Patents]](../gifs/ps.gif) | . . Melting or softening |
161 | ![[Patents]](../gifs/ps.gif) | . . Change of optical property |
162 | ![[Patents]](../gifs/ps.gif) | . . . Color |
163 | ![[Patents]](../gifs/ps.gif) | . By electrical or magnetic heat sensor |
164 | ![[Patents]](../gifs/ps.gif) | . . With preheated sensing probe |
165 | ![[Patents]](../gifs/ps.gif) | . . With heat exchanger or conductor |
166 | ![[Patents]](../gifs/ps.gif) | . . At plural zones |
167 | ![[Patents]](../gifs/ps.gif) | . . . Scanning |
168 | ![[Patents]](../gifs/ps.gif) | . . With self-rebalancing arrangement (e.g., servo-potentiometer, thermal link) |
169 | ![[Patents]](../gifs/ps.gif) | . . With thermal lag compensation |
170 | ![[Patents]](../gifs/ps.gif) | . . Digital output |
171 | ![[Patents]](../gifs/ps.gif) | . . . With digital linearizing circuitry |
172 | ![[Patents]](../gifs/ps.gif) | . . With compensation for sensor nonlinearity or lead impedance |
173 | ![[Patents]](../gifs/ps.gif) | . . . By feedback in amplifier circuit or with constant current source in circuit |
174 | ![[Patents]](../gifs/ps.gif) | . . By conductive fluid or work function within sensor (e.g., ionization) |
175 | ![[Patents]](../gifs/ps.gif) | . . Thermal noise generated in conductor |
176 | ![[Patents]](../gifs/ps.gif) | . . Including sensor having hysteresis or cryogenic property (e.g., ferromagnetism, superconductivity) |
177 | ![[Patents]](../gifs/ps.gif) | . . . Ferroelectric |
178 | ![[Patents]](../gifs/ps.gif) | . . By barrier layer sensing element (e.g., semiconductor junction) |
179 | ![[Patents]](../gifs/ps.gif) | . . By thermoelectric potential generator (e.g., thermocouple) |
180 | ![[Patents]](../gifs/ps.gif) | . . . Specimen is part of thermoelectric circuit |
181 | ![[Patents]](../gifs/ps.gif) | . . . Reference junction compensation |
182 | ![[Patents]](../gifs/ps.gif) | . . . Reference junction temperature control |
183 | ![[Patents]](../gifs/ps.gif) | . . By current modifying sensor |
184 | ![[Patents]](../gifs/ps.gif) | . . . Reactive element (e.g., capacitive) |
185 | ![[Patents]](../gifs/ps.gif) | . . . Detail of resistive sensor |
186 | ![[Patents]](../gifs/ps.gif) | . With specified recording arrangement |
187 | ![[Patents]](../gifs/ps.gif) | . Mechanical (e.g., expansion or contraction of materials) |
188 | ![[Patents]](../gifs/ps.gif) | . . Having electrical indication |
189 | ![[Patents]](../gifs/ps.gif) | . . Plural zones (e.g., indoor-outdoor) |
190 | ![[Patents]](../gifs/ps.gif) | . . Indicating tube type |
191 | ![[Patents]](../gifs/ps.gif) | . . . With optical element (e.g., magnifying) |
192 | ![[Patents]](../gifs/ps.gif) | . . . With holder for shaking |
193 | ![[Patents]](../gifs/ps.gif) | . . . Having specified cross section |
194 | ![[Patents]](../gifs/ps.gif) | . . . With support or housing |
195 | ![[Patents]](../gifs/ps.gif) | . . With detail of motion transmitting mechanism |
196 | ![[Patents]](../gifs/ps.gif) | . . One sensing element within another |
197 | ![[Patents]](../gifs/ps.gif) | . . With compensation |
198 | ![[Patents]](../gifs/ps.gif) | . . With adjustment |
199 | ![[Patents]](../gifs/ps.gif) | . . . Mechanical loading of sensor |
200 | ![[Patents]](../gifs/ps.gif) | . . . Adjustment of limit stop |
201 | ![[Patents]](../gifs/ps.gif) | . . Expanding fluid |
202 | ![[Patents]](../gifs/ps.gif) | . . . With distinct pressure transmitting fluid |
203 | ![[Patents]](../gifs/ps.gif) | . . . Bourdon tube or bellows |
204 | ![[Patents]](../gifs/ps.gif) | . . Multiple distinct sensing elements |
205 | ![[Patents]](../gifs/ps.gif) | . . Compound sensing element (e.g., bimetallic) |
206 | ![[Patents]](../gifs/ps.gif) | . . . Coil |
207 | ![[Patents]](../gifs/ps.gif) | . . . . Helix |
208 | ![[Patents]](../gifs/ps.gif) | HOUSING, SUPPORT, OR ADJUNCT |
209 | ![[Patents]](../gifs/ps.gif) | . Removable probe cover |
210 | ![[Patents]](../gifs/ps.gif) | MISCELLANEOUS |