Subclass |
| Title |
ClassTitle
|
| ===>
HEAT EXCHANGE
|
| | |
4 | ![[Patents]](../gifs/ps.gif) | REGENERATOR |
5 | ![[Patents]](../gifs/ps.gif) | . Cleaning |
6 | ![[Patents]](../gifs/ps.gif) | . Movable heat storage mass with enclosure |
7 | ![[Patents]](../gifs/ps.gif) | . . With fluid handling system |
8 | ![[Patents]](../gifs/ps.gif) | . . Rotary heat collector |
9 | ![[Patents]](../gifs/ps.gif) | . . . Seals |
9.1 | ![[Patents]](../gifs/ps.gif) | . Checker brick structure |
9.2 | ![[Patents]](../gifs/ps.gif) | . . Gradated flow area, heat capacity or heat resistance |
9.3 | ![[Patents]](../gifs/ps.gif) | . . Having gas supply or exhaust manifold structure |
9.4 | ![[Patents]](../gifs/ps.gif) | . . In casing |
10 | ![[Patents]](../gifs/ps.gif) | . Heat collector |
11.1 | ![[Patents]](../gifs/ps.gif) | WITH ALARM, INDICATOR, SIGNAL, REGISTER, RECORDER, TEST OR INSPECTION MEANS |
11.2 | ![[Patents]](../gifs/ps.gif) | . Remotely controlled inspection means |
200 | ![[Patents]](../gifs/ps.gif) | WITH TIMER, PROGRAMMER, TIME DELAY, OR CONDITION RESPONSIVE CONTROL |
201 | ![[Patents]](../gifs/ps.gif) | . Having heating and cooling capability |
202 | ![[Patents]](../gifs/ps.gif) | . . Vehicle installation |
203 | ![[Patents]](../gifs/ps.gif) | . . . Plural temperature regulators for plural zones |
204 | ![[Patents]](../gifs/ps.gif) | . . . Flow control of chest, foot, or defrost air in vehicle |
205 | ![[Patents]](../gifs/ps.gif) | . . Plural temperature regulators for plural zones |
206 | ![[Patents]](../gifs/ps.gif) | . . . Nonbuilding system (e.g., machine tool, chemical analyzer, etc.) |
207 | ![[Patents]](../gifs/ps.gif) | . . . Refrigeration system having an evaporator or condenser in each zone |
208 | ![[Patents]](../gifs/ps.gif) | . . . Central system prioritizes heating and cooling requests from zones |
209 | ![[Patents]](../gifs/ps.gif) | . . . Supervisory central control means overrides zone controller |
210 | ![[Patents]](../gifs/ps.gif) | . . . Heat balancing using waste heat or cold (e.g., heat reclaim, etc.) |
211 | ![[Patents]](../gifs/ps.gif) | . . . Different conditioning means for perimeter zone and core zone |
212 | ![[Patents]](../gifs/ps.gif) | . . . Central temperature conditioned air supplied to each zone |
213 | ![[Patents]](../gifs/ps.gif) | . . . . Mixing within zone of recirculated zone air and supply air adjacent zone air inlet (e.g., induction unit, etc.) |
214 | ![[Patents]](../gifs/ps.gif) | . . . . . Including a fan (e.g., fancoil unit, etc.) |
215 | ![[Patents]](../gifs/ps.gif) | . . . . Reheat adjacent zone air inlet |
216 | ![[Patents]](../gifs/ps.gif) | . . . . Mixing of separate centrally supplied hot and cold stream before discharge into each zone (e.g., dual-duct, etc.) |
217 | ![[Patents]](../gifs/ps.gif) | . . . . Volume flow of discharged air at discharge into zone modulated by zone heating or cooling load (e.g., variable air volume, etc.) |
218 | ![[Patents]](../gifs/ps.gif) | . . . Central temperature conditioned liquid supplied to each zone |
219 | ![[Patents]](../gifs/ps.gif) | . . . . Separate supply and return mains (e.g., two pipe system, etc.) |
220 | ![[Patents]](../gifs/ps.gif) | . . . . . Additional supply main (e.g., three pipe system, etc.) |
221 | ![[Patents]](../gifs/ps.gif) | . . . . . . Additional return main (e.g., four pipe system, etc.) |
222 | ![[Patents]](../gifs/ps.gif) | . . Humidity control |
223 | ![[Patents]](../gifs/ps.gif) | . . . Humidity sensor measures humidity of air in conditioned space |
224 | ![[Patents]](../gifs/ps.gif) | . . . . Additional humidity sensor (e.g., located outside of conditioned space, etc.) |
225 | ![[Patents]](../gifs/ps.gif) | . . . . Humidity sensor controls indirect-contact cooling means |
226 | ![[Patents]](../gifs/ps.gif) | . . . . . Liquid spray onto indirect-contact cooling means |
227 | ![[Patents]](../gifs/ps.gif) | . . . . . Air bypass of indirect-contact cooling means |
228 | ![[Patents]](../gifs/ps.gif) | . . . . . Reheat of cooled air downstream of indirect-contact cooling means |
229 | ![[Patents]](../gifs/ps.gif) | . . . . Humidity sensor controls humidifier |
230 | ![[Patents]](../gifs/ps.gif) | . . . Dewpoint controlled (e.g., control of cooling means by downstream temperature sensor to maintain controlled dewpoint of downstream air, etc.) |
231 | ![[Patents]](../gifs/ps.gif) | . . Congealed material (e.g., frost, etc.) or condensation removal or prevention |
232 | ![[Patents]](../gifs/ps.gif) | . . . Operated by timer or programmer |
233 | ![[Patents]](../gifs/ps.gif) | . . . Operated by temperature sensor |
234 | ![[Patents]](../gifs/ps.gif) | . . Control of static pressure of conditioned space |
235 | ![[Patents]](../gifs/ps.gif) | . . . Space is within aircraft |
236 | ![[Patents]](../gifs/ps.gif) | . . Control of heat storage |
237 | ![[Patents]](../gifs/ps.gif) | . . Means responsive to occupancy of space |
238 | ![[Patents]](../gifs/ps.gif) | . . Means storing set point for particular time of day (e.g., clock thermostat, etc.) |
239 | ![[Patents]](../gifs/ps.gif) | . . . Means to compute time required to reach certain temperature by certain time of day (e.g., morning warm-up, etc.) |
240 | ![[Patents]](../gifs/ps.gif) | . . Heat pump and supplemental heat source |
241 | ![[Patents]](../gifs/ps.gif) | . . . Change-over from heat pump operation to supplemental heat source operation alone |
242 | ![[Patents]](../gifs/ps.gif) | . . . . Responsive to outdoor temperature |
243 | ![[Patents]](../gifs/ps.gif) | . . Means to reset supply air temperature or supply water temperature as function of heat load |
244 | ![[Patents]](../gifs/ps.gif) | . . Means to control fan or pump to regulate supply air flow or supply water flow |
245 | ![[Patents]](../gifs/ps.gif) | . . . Low flow during heating and high flow during cooling |
246 | ![[Patents]](../gifs/ps.gif) | . . . Responsive to pressure |
247 | ![[Patents]](../gifs/ps.gif) | . . . Responsive to temperature |
248 | ![[Patents]](../gifs/ps.gif) | . . Flow of air from outdoors controlled (e.g., minimum outside air, etc.) |
249 | ![[Patents]](../gifs/ps.gif) | . . . Proportion of outdoor air and return air controlled |
250 | ![[Patents]](../gifs/ps.gif) | . . . . Outdoor air used in lieu of operating heating or cooling means (e.g., economy cycle, etc.) |
251 | ![[Patents]](../gifs/ps.gif) | . . . . . Enthalpy sensor |
252 | ![[Patents]](../gifs/ps.gif) | . . . Pre-heat or pre-cool of outdoor air before mixing with returned air |
253 | ![[Patents]](../gifs/ps.gif) | . . Temperature sensor controlling temperature |
254 | ![[Patents]](../gifs/ps.gif) | . . . System selects heating or cooling mode automatically (e.g., responsive to season, ambient light, temperature in conditioned area, etc.) |
255 | ![[Patents]](../gifs/ps.gif) | . . . . Dead band between heating and cooling |
256 | ![[Patents]](../gifs/ps.gif) | . . . . Variable rate of heating or cooling (e.g., plural stages, etc.) |
257 | ![[Patents]](../gifs/ps.gif) | . . . . Room and ambient temperature sensors |
258 | ![[Patents]](../gifs/ps.gif) | . . . . Separate heating and cooling thermostats |
259 | ![[Patents]](../gifs/ps.gif) | . . . . Single temperature sensing means |
260 | ![[Patents]](../gifs/ps.gif) | . . . Variable rate of heating or cooling (e.g., plural stages, etc.) |
261 | ![[Patents]](../gifs/ps.gif) | . . . . Sequentially activated heat sources or cool sources |
262 | ![[Patents]](../gifs/ps.gif) | . . . . . Timer |
263 | ![[Patents]](../gifs/ps.gif) | . . . Area receives conditioning from simultaneously operated heating and cooling means (e.g., opposed and compensating heating and cooling, etc.) |
264 | ![[Patents]](../gifs/ps.gif) | . . . . Simultaneous heating and cooling only in limited range around set point temperature |
265 | ![[Patents]](../gifs/ps.gif) | . . . Manual changeover between heating and cooling modes (e.g., manual override, etc.) |
266 | ![[Patents]](../gifs/ps.gif) | . Pre-heat or pre-cool of space or device during start-up |
267 | ![[Patents]](../gifs/ps.gif) | . Means to heat or cool for predetermined periods of time (e.g., duty cycle, time-temperature profiler, etc.) |
268 | ![[Patents]](../gifs/ps.gif) | . . Predetermined time variable set point |
269 | ![[Patents]](../gifs/ps.gif) | . . Duty cycle (e.g., pulse duration or pulse frequency modulation, etc.) |
270 | ![[Patents]](../gifs/ps.gif) | . Time delay |
271 | ![[Patents]](../gifs/ps.gif) | . Vehicle or engine speed responsive |
272 | ![[Patents]](../gifs/ps.gif) | . Control of heat pipe heat transfer characteristics |
273 | ![[Patents]](../gifs/ps.gif) | . . Control of quantity of inert gas |
274 | ![[Patents]](../gifs/ps.gif) | . . Control of vapor or liquid flow between evaporator and condenser sections (e.g., by variable restrictions, check valves, etc.) |
275 | ![[Patents]](../gifs/ps.gif) | . Control of amount of conductive gas in confined space between heat source and heat sink |
276 | ![[Patents]](../gifs/ps.gif) | . Control of variable thermal conductivity systems (e.g., heat valves, etc.) |
277 | ![[Patents]](../gifs/ps.gif) | . . Solid heat transfer path |
278 | ![[Patents]](../gifs/ps.gif) | . Vent of system (e.g., overpressure, overtemperature, removal of noncondensable, etc.) |
279 | ![[Patents]](../gifs/ps.gif) | . Pressure and temperature responsive or control |
280 | ![[Patents]](../gifs/ps.gif) | . . Bypass of heat exchanger responsive to both temperature and pressure |
281 | ![[Patents]](../gifs/ps.gif) | . Fluid pressure responsive or control |
282 | ![[Patents]](../gifs/ps.gif) | . . Branched flow of heat exchange material |
283 | ![[Patents]](../gifs/ps.gif) | . . . Bypass of heat exchanger |
284 | ![[Patents]](../gifs/ps.gif) | . . . . Differential pressure operated bypass |
285 | ![[Patents]](../gifs/ps.gif) | . . Flow of one heat exchange material controlled by the pressure of another |
286 | ![[Patents]](../gifs/ps.gif) | . . Flow of one heat exchange material controlled by its own pressure |
287 | ![[Patents]](../gifs/ps.gif) | . Temperature responsive or control |
288 | ![[Patents]](../gifs/ps.gif) | . . Plural temperature sensors |
289 | ![[Patents]](../gifs/ps.gif) | . . . Means to maintain a constant temperature difference between a measured temperature and a controlled temperature |
290 | ![[Patents]](../gifs/ps.gif) | . . . Temperature sensor within or near an area to be conditioned, another tempeerature sensor near the conditioning equipment (e.g., shallow/deep, etc.) |
291 | ![[Patents]](../gifs/ps.gif) | . . . Temperature sensor inside conditioned space, another temperature sensor outdoor (e.g., indoor set point adjusted by outdoor conditions, etc.) |
292 | ![[Patents]](../gifs/ps.gif) | . . . Temperature sensor in treated fluid, another temperature sensor in treating fluid |
293 | ![[Patents]](../gifs/ps.gif) | . . . Temperature sensor prior to heat exchanger and one after |
294 | ![[Patents]](../gifs/ps.gif) | . . . Branched flow of heat exchange material |
295 | ![[Patents]](../gifs/ps.gif) | . . Including mass flow sensor |
296 | ![[Patents]](../gifs/ps.gif) | . . Branched flow of heat exchange material |
297 | ![[Patents]](../gifs/ps.gif) | . . . Bypass of heat exchanger |
298 | ![[Patents]](../gifs/ps.gif) | . . . . Mixture temperature sensing |
299 | ![[Patents]](../gifs/ps.gif) | . . Flow of one heat exchange material controlled by temperature of another |
300 | ![[Patents]](../gifs/ps.gif) | . . Flow of one heat exchange material controlled by its own temperature |
301 | ![[Patents]](../gifs/ps.gif) | . Liquid-level responsive or control means |
302 | ![[Patents]](../gifs/ps.gif) | . . Condenser or evaporator |
303 | ![[Patents]](../gifs/ps.gif) | . Cleaning |
41 | ![[Patents]](../gifs/ps.gif) | WITH VEHICLE FEATURE |
42 | ![[Patents]](../gifs/ps.gif) | . Heating and cooling |
43 | ![[Patents]](../gifs/ps.gif) | . . Vehicle contained common power and heat supply |
44 | ![[Patents]](../gifs/ps.gif) | . Utilizing motion of vehicle |
45 | ![[Patents]](../gifs/ps.gif) | GEOGRAPHICAL |
46 | ![[Patents]](../gifs/ps.gif) | FLEXIBLE ENVELOPE OR COVER TYPE |
47 | ![[Patents]](../gifs/ps.gif) | STRUCTURAL INSTALLATION |
48.1 | ![[Patents]](../gifs/ps.gif) | . Heating and cooling |
48.2 | ![[Patents]](../gifs/ps.gif) | . . Solar |
49 | ![[Patents]](../gifs/ps.gif) | . . Radiant building panel |
50 | ![[Patents]](../gifs/ps.gif) | . . Room heat exchangers with central fluid supply |
51 | ![[Patents]](../gifs/ps.gif) | . Engine |
52 | ![[Patents]](../gifs/ps.gif) | . . Exchange between engine supply and exhaust lines |
53 | ![[Patents]](../gifs/ps.gif) | . Related to wall, floor or ceiling structure of a chamber |
54 | ![[Patents]](../gifs/ps.gif) | . . In a chamber connected passage traversing the structure |
55 | ![[Patents]](../gifs/ps.gif) | . . Projecting shield forms passage with the structure |
56 | ![[Patents]](../gifs/ps.gif) | . . Hollow or recess in the structure connected for exchange fluid flow |
57 | ![[Patents]](../gifs/ps.gif) | . . . Ported to the chamber |
58 | ![[Patents]](../gifs/ps.gif) | HEATING AND COOLING |
59 | ![[Patents]](../gifs/ps.gif) | . With ventilation |
60 | ![[Patents]](../gifs/ps.gif) | . Gas-liquid contactor |
61 | ![[Patents]](../gifs/ps.gif) | . Heating and cooling of the same material |
62 | ![[Patents]](../gifs/ps.gif) | . . Refrigerating system conversion |
63 | ![[Patents]](../gifs/ps.gif) | . . Refrigeration producer |
64 | ![[Patents]](../gifs/ps.gif) | . . Heat generator |
65 | ![[Patents]](../gifs/ps.gif) | . . Heater and cooler serially arranged |
66 | ![[Patents]](../gifs/ps.gif) | . . . Heat exchange between supply and exhaust lines |
67 | ![[Patents]](../gifs/ps.gif) | WITH EXTERNAL SUPPORT |
68 | ![[Patents]](../gifs/ps.gif) | . Legs |
69 | ![[Patents]](../gifs/ps.gif) | RESILIENT VIBRATION DAMPER ISOLATING EXCHANGER ELEMENT |
70 | ![[Patents]](../gifs/ps.gif) | WITH LEAKAGE COLLECTOR |
71 | ![[Patents]](../gifs/ps.gif) | WITH PURGE, OR DRAINAGE, COCK OR PLUG |
72 | ![[Patents]](../gifs/ps.gif) | COVERED ACCESS OPENING |
73 | ![[Patents]](../gifs/ps.gif) | . Cover is, or carries, heat exchanging means |
74 | ![[Patents]](../gifs/ps.gif) | . . Heat exchanging means projects into the covered chamber |
75 | ![[Patents]](../gifs/ps.gif) | . Heating or cooling means within the covered chamber |
76 | ![[Patents]](../gifs/ps.gif) | WITH REPAIR OR ASSEMBLY MEANS |
77 | ![[Patents]](../gifs/ps.gif) | . Hinge |
78 | ![[Patents]](../gifs/ps.gif) | . Guide |
79 | ![[Patents]](../gifs/ps.gif) | . Positioner or retainer for settable material |
80.1 | ![[Patents]](../gifs/ps.gif) | WITH RETAINER FOR REMOVABLE ARTICLE |
80.2 | ![[Patents]](../gifs/ps.gif) | . Electrical component |
80.3 | ![[Patents]](../gifs/ps.gif) | . . Air cooled, including fins |
80.4 | ![[Patents]](../gifs/ps.gif) | . . Liquid cooled |
80.5 | ![[Patents]](../gifs/ps.gif) | . Including liquid heat exchange medium |
81 | ![[Patents]](../gifs/ps.gif) | EXPANSION AND CONTRACTION RELIEVING OR ABSORBING MEANS |
82 | ![[Patents]](../gifs/ps.gif) | . Relieving or absorbing means supports temperature modifier in heat exchanger |
83 | ![[Patents]](../gifs/ps.gif) | . . Flexible fluid confining wall |
84 | ![[Patents]](../gifs/ps.gif) | WITH MEANS FLEXING, JARRING OR VIBRATING HEAT EXCHANGE SURFACE |
85 | ![[Patents]](../gifs/ps.gif) | AGITATOR OR IMPELLER MOTOR OPERATED BY EXCHANGE FLUID |
86 | ![[Patents]](../gifs/ps.gif) | MOVABLE HEATING OR COOLING SURFACE |
87 | ![[Patents]](../gifs/ps.gif) | . Hollow screw type impeller |
88 | ![[Patents]](../gifs/ps.gif) | . Rotor carrying separate chambers for two exchanging fluents |
89 | ![[Patents]](../gifs/ps.gif) | . Rotary drum |
90 | ![[Patents]](../gifs/ps.gif) | . . With means applying fluids for exchange through drum wall |
91 | ![[Patents]](../gifs/ps.gif) | . . . With drum surface scraper |
92 | ![[Patents]](../gifs/ps.gif) | . Hollow strirrer or scraper |
93 | ![[Patents]](../gifs/ps.gif) | . . Material advancer in shelf to shelf device |
94 | ![[Patents]](../gifs/ps.gif) | WITH SCRAPER REMOVING PRODUCT FROM TEMPERATURE MODIFYING SURFACE |
95 | ![[Patents]](../gifs/ps.gif) | WITH CLEANING MEANS FOR HEAT EXCHANGER |
96 | ![[Patents]](../gifs/ps.gif) | WITH ADJUSTOR FOR HEAT, OR EXCHANGE MATERIAL, FLOW |
97 | ![[Patents]](../gifs/ps.gif) | . Flow reversed or crossed within temperature modifying zone |
98 | ![[Patents]](../gifs/ps.gif) | . Adjustable radiator face covering means |
99 | ![[Patents]](../gifs/ps.gif) | . . Discharge grille or diffuser |
100 | ![[Patents]](../gifs/ps.gif) | . Branched flow |
101 | ![[Patents]](../gifs/ps.gif) | . . Controls flow through parallel heating or cooling means |
102 | ![[Patents]](../gifs/ps.gif) | . . Tortuous and straight through branches within heating or cooling drum |
103 | ![[Patents]](../gifs/ps.gif) | . . By pass of heating or cooling means |
104.11 | ![[Patents]](../gifs/ps.gif) | INTERMEDIATE FLUENT HEAT EXCHANGE MATERIAL RECEIVING AND DISCHARGING HEAT |
104.12 | ![[Patents]](../gifs/ps.gif) | . Reversible chemical reaction |
104.13 | ![[Patents]](../gifs/ps.gif) | . Plural intermediate fluent heat exchange materials |
104.14 | ![[Patents]](../gifs/ps.gif) | . . Always out of direct contact with each other |
104.15 | ![[Patents]](../gifs/ps.gif) | . Solid fluent heat exchange material |
104.16 | ![[Patents]](../gifs/ps.gif) | . . Fluidized bed |
104.17 | ![[Patents]](../gifs/ps.gif) | . . Utilizing change of state |
104.18 | ![[Patents]](../gifs/ps.gif) | . . Including means to move heat exchange material |
104.19 | ![[Patents]](../gifs/ps.gif) | . Liquid fluent heat exchange material |
104.21 | ![[Patents]](../gifs/ps.gif) | . . Utilizing change of state |
104.22 | ![[Patents]](../gifs/ps.gif) | . . . Including means to move heat exchange material in liquid state |
104.23 | ![[Patents]](../gifs/ps.gif) | . . . . By direct application of electrical energy to heat exchange material |
104.24 | ![[Patents]](../gifs/ps.gif) | . . . . By application of heat other than in heat receiving area |
104.25 | ![[Patents]](../gifs/ps.gif) | . . . . By application of mechanical energy |
104.26 | ![[Patents]](../gifs/ps.gif) | . . . Utilizing capillary attraction |
104.27 | ![[Patents]](../gifs/ps.gif) | . . . With pressurizing means or degassifying means |
104.28 | ![[Patents]](../gifs/ps.gif) | . . Including means to move heat exchange material |
104.29 | ![[Patents]](../gifs/ps.gif) | . . . Utilizing formed bubble |
104.31 | ![[Patents]](../gifs/ps.gif) | . . . By application of mechanical energy |
104.32 | ![[Patents]](../gifs/ps.gif) | . . With pressurizing means or degassifying means |
104.33 | ![[Patents]](../gifs/ps.gif) | . . Cooling electrical device |
104.34 | ![[Patents]](../gifs/ps.gif) | . Including means to move gaseous heat exchange material |
108 | ![[Patents]](../gifs/ps.gif) | RECIRCULATION |
109.1 | ![[Patents]](../gifs/ps.gif) | WITH AGITATING OR STIRRING STRUCTURE |
110 | ![[Patents]](../gifs/ps.gif) | WITH FIRST FLUID HOLDER OR COLLECTOR OPEN TO SECOND FLUID |
111 | ![[Patents]](../gifs/ps.gif) | . Separate external discharge port for each fluid |
112 | ![[Patents]](../gifs/ps.gif) | . . With downstream pressure or temperature modifier |
113 | ![[Patents]](../gifs/ps.gif) | . . . Surface-type heat exchanger |
114 | ![[Patents]](../gifs/ps.gif) | . . With baffle at inlet to less dense fluid discharge port |
115 | ![[Patents]](../gifs/ps.gif) | . Trickler |
116 | ![[Patents]](../gifs/ps.gif) | . . Shelf to shelf |
117 | ![[Patents]](../gifs/ps.gif) | . . Pipe exterior to pipe exterior |
118 | ![[Patents]](../gifs/ps.gif) | . . Vertical cone or drum |
119 | ![[Patents]](../gifs/ps.gif) | WITH SOLIDS SEPARATOR FOR EXCHANGE FLUID |
120 | ![[Patents]](../gifs/ps.gif) | WITH IMPELLER OR CONVEYOR MOVING EXCHANGE MATERIAL |
121 | ![[Patents]](../gifs/ps.gif) | . Mechanical gas pump |
122 | ![[Patents]](../gifs/ps.gif) | . . Heating or cooling means and gas pump in housing |
123 | ![[Patents]](../gifs/ps.gif) | . . . With injector-type gas pump |
124 | ![[Patents]](../gifs/ps.gif) | . . . Verging gas flow |
125 | ![[Patents]](../gifs/ps.gif) | . . . . Radial flow through annular heating or cooling means |
126 | ![[Patents]](../gifs/ps.gif) | . . . . Single inlet, plural outlets |
127 | ![[Patents]](../gifs/ps.gif) | . . . . . Gas pump for each outlet stream |
128 | ![[Patents]](../gifs/ps.gif) | THERMOSYPHONIC FLUE TYPE |
129 | ![[Patents]](../gifs/ps.gif) | . Heating or cooling means within distinct flue forming enclosure |
130 | ![[Patents]](../gifs/ps.gif) | . Flue formed between facing second fluid containing conduits |
131 | ![[Patents]](../gifs/ps.gif) | . Flues formed by vertical corrugations of heat transmitter |
132 | ![[Patents]](../gifs/ps.gif) | HEATING OR COOLING MEANS IN OPEN COMMUNICATION WITH RESERVOIR |
133 | ![[Patents]](../gifs/ps.gif) | WITH COATED, ROUGHENED OR POLISHED SURFACE |
134.1 | ![[Patents]](../gifs/ps.gif) | WITH PROTECTOR OR PROTECTIVE AGENT |
135 | ![[Patents]](../gifs/ps.gif) | WITH THERMAL OR ACOUSTICAL BLOCKER |
136 | ![[Patents]](../gifs/ps.gif) | . Insulation and temperature modifier within barrier member |
137 | ![[Patents]](../gifs/ps.gif) | CONVERTIBLE |
138 | ![[Patents]](../gifs/ps.gif) | COMBINED |
139 | ![[Patents]](../gifs/ps.gif) | INTERNALLY BRANCHED FLOW, EXTERNALLY PORTED |
140 | ![[Patents]](../gifs/ps.gif) | THREE NON-COMMUNICATING FLUIDS |
141 | ![[Patents]](../gifs/ps.gif) | . Concentric flow chambers |
142 | ![[Patents]](../gifs/ps.gif) | SPUR TUBE PROJECTS INTO ENCLOSURE |
143 | ![[Patents]](../gifs/ps.gif) | PLURAL CASTING-CONDUIT UNITS<< LINE OR COMMON HEADER CONNECTED |
144 | ![[Patents]](../gifs/ps.gif) | LINE CONNECTED CONDUIT ASSEMBLIES |
145 | ![[Patents]](../gifs/ps.gif) | . In common casing |
146 | ![[Patents]](../gifs/ps.gif) | GRADATED HEAT TRANSFER STRUCTURE |
147 | ![[Patents]](../gifs/ps.gif) | . Tapered conduit means |
148 | ![[Patents]](../gifs/ps.gif) | RADIATOR CORE TYPE |
149 | ![[Patents]](../gifs/ps.gif) | . With edge cover or frame means |
150 | ![[Patents]](../gifs/ps.gif) | . Serially connected tube sections |
151 | ![[Patents]](../gifs/ps.gif) | . Side-by-side tubes traversing fin means |
152 | ![[Patents]](../gifs/ps.gif) | . Deformed sheet forms passages between side-by-side tube means |
153 | ![[Patents]](../gifs/ps.gif) | . . With tube manifold |
154 | ![[Patents]](../gifs/ps.gif) | NON-COMMUNICATING COAXIAL ENCLOSURES |
155 | ![[Patents]](../gifs/ps.gif) | . With communicating coaxial enclosure |
156 | ![[Patents]](../gifs/ps.gif) | . Helical conduit means |
157 | ![[Patents]](../gifs/ps.gif) | CASING OR TANK ENCLOSED CONDUIT ASSEMBLY |
158 | ![[Patents]](../gifs/ps.gif) | . Manifold formed by casing section and tube sheet of assembly |
159 | ![[Patents]](../gifs/ps.gif) | . With distinct flow director in casing |
160 | ![[Patents]](../gifs/ps.gif) | . . Longitudinal |
161 | ![[Patents]](../gifs/ps.gif) | . . . Additional transverse baffle |
162 | ![[Patents]](../gifs/ps.gif) | . With support in casing |
163 | ![[Patents]](../gifs/ps.gif) | . Conduit coiled within casing |
164 | ![[Patents]](../gifs/ps.gif) | FLOW PASSAGES FOR TWO CONFINED FLUIDS |
165 | ![[Patents]](../gifs/ps.gif) | . Interdigitated plural first and plural second fluid passages |
166 | ![[Patents]](../gifs/ps.gif) | . . Stacked plates or shells form interplate passages |
167 | ![[Patents]](../gifs/ps.gif) | . . . With plate traversing passages interconnecting alternate spaces |
168 | ![[Patents]](../gifs/ps.gif) | CONDUIT WITHIN, OR CONFORMING TO, PANEL OR WALL STRUCTURE |
169 | ![[Patents]](../gifs/ps.gif) | . Wall forms enclosure |
170 | ![[Patents]](../gifs/ps.gif) | . Opposed plates or shells |
171 | ![[Patents]](../gifs/ps.gif) | . Means spanning side-by-side tube elements |
172 | ![[Patents]](../gifs/ps.gif) | SIDE-BY-SIDE TUBULAR STRUCTURES OR TUBE SECTIONS |
173 | ![[Patents]](../gifs/ps.gif) | . With manifold type header or header plate |
174 | ![[Patents]](../gifs/ps.gif) | . . With internal flow director |
175 | ![[Patents]](../gifs/ps.gif) | . . Inlet and outlet header means |
176 | ![[Patents]](../gifs/ps.gif) | . . . Side by side |
177 | ![[Patents]](../gifs/ps.gif) | TUBULAR STRUCTURE |
178 | ![[Patents]](../gifs/ps.gif) | . With support or flow connector |
179 | ![[Patents]](../gifs/ps.gif) | . Projecting internal and external heat transfer means |
180 | ![[Patents]](../gifs/ps.gif) | . Diverse materials |
181 | ![[Patents]](../gifs/ps.gif) | . With discrete heat transfer means |
182 | ![[Patents]](../gifs/ps.gif) | . . With means spacing fins on structure |
183 | ![[Patents]](../gifs/ps.gif) | . . Longitudinal extending |
184 | ![[Patents]](../gifs/ps.gif) | . . . Helical |
185 | ![[Patents]](../gifs/ps.gif) | HEAT TRANSMITTER |
186 | ![[Patents]](../gifs/ps.gif) | MISCELLANEOUS |
| | ****************************** |
| | CROSS-REFERENCE ART COLLECTIONS |
| | ****************************** |
900 | ![[Patents]](../gifs/ps.gif) | COOLING TOWERS |
901 | ![[Patents]](../gifs/ps.gif) | HEAT SAVERS |
902 | ![[Patents]](../gifs/ps.gif) | HEAT STORAGE |
903 | ![[Patents]](../gifs/ps.gif) | CONVECTION |
904 | ![[Patents]](../gifs/ps.gif) | RADIATION |
905 | ![[Patents]](../gifs/ps.gif) | MATERIALS OF MANUFACTURE |
906 | ![[Patents]](../gifs/ps.gif) | REINFORCEMENT |
907 | ![[Patents]](../gifs/ps.gif) | POROUS |
908 | ![[Patents]](../gifs/ps.gif) | FLUID JETS |
909 | ![[Patents]](../gifs/ps.gif) | REGENERATION |
910 | ![[Patents]](../gifs/ps.gif) | TUBE PATTERN |
911 | ![[Patents]](../gifs/ps.gif) | VAPORIZATION |
912 | ![[Patents]](../gifs/ps.gif) | COMBINED OR CONVERTIBLE HEAT EXCHANGE MODES |
913 | ![[Patents]](../gifs/ps.gif) | CONDENSATION |
914 | ![[Patents]](../gifs/ps.gif) | FILMING |
915 | ![[Patents]](../gifs/ps.gif) | FOAMING |
916 | ![[Patents]](../gifs/ps.gif) | OIL COOLER |
917 | ![[Patents]](../gifs/ps.gif) | PRESSURIZATION AND/OR DEGASSIFICATION |
918 | ![[Patents]](../gifs/ps.gif) | HEATED AND COOLED FOOD CABINETS AND/OR TRAYS |
919 | ![[Patents]](../gifs/ps.gif) | . WHEELED |
920 | ![[Patents]](../gifs/ps.gif) | PARTICULATE HEAT EXCHANGE |
921 | ![[Patents]](../gifs/ps.gif) | DEW POINT |
DIG 1 | ![[Patents]](../gifs/ps.gif) | WITH ALARM, INDICATOR, RECORDER, TEST, OR INSPECTION MEANS |
DIG 2 | ![[Patents]](../gifs/ps.gif) | . Energy, efficiency, performance or malfunction |
DIG 3 | ![[Patents]](../gifs/ps.gif) | . Remote control inspection means |
DIG 4 | ![[Patents]](../gifs/ps.gif) | . Sight glass |
DIG 5 | ![[Patents]](../gifs/ps.gif) | . Fluid level or amount |
DIG 6 | ![[Patents]](../gifs/ps.gif) | . Temperature |
DIG 7 | ![[Patents]](../gifs/ps.gif) | . Flow or valve position |
DIG 8 | ![[Patents]](../gifs/ps.gif) | . Leakage |
DIG 9 | ![[Patents]](../gifs/ps.gif) | HAVING A SOLID HEAT STORAGE MASS FOR ABSORBING HEAT FROM ONE FLUID AND RELEASING IT TO ANOTHER (I.E. REGENERATOR) |
DIG 10 | ![[Patents]](../gifs/ps.gif) | . Cleaning storage mass |
DIG 11 | ![[Patents]](../gifs/ps.gif) | . . Reciprocating cleaner device (e.g. scraper, sprayer) |
DIG 12 | ![[Patents]](../gifs/ps.gif) | . . Spray nozzle cleaner |
DIG 13 | ![[Patents]](../gifs/ps.gif) | . Movable heat storage mass with enclosure |
DIG 14 | ![[Patents]](../gifs/ps.gif) | . . Reciprocated linearly |
DIG 15 | ![[Patents]](../gifs/ps.gif) | . . With pump |
DIG 16 | ![[Patents]](../gifs/ps.gif) | . . Rotary storage mass |
DIG 17 | ![[Patents]](../gifs/ps.gif) | . . . With thermal expansion compensating means |
DIG 18 | ![[Patents]](../gifs/ps.gif) | . . . Having means controlling direction or rate of flow |
DIG 19 | ![[Patents]](../gifs/ps.gif) | . . . . Plate type shutter associated with face of storage mass |
DIG 20 | ![[Patents]](../gifs/ps.gif) | . . . Seal and seal-engaging surface are relatively movable |
DIG 21 | ![[Patents]](../gifs/ps.gif) | . . . . Seal engaging a face of cylindrical heat storage mass |
DIG 22 | ![[Patents]](../gifs/ps.gif) | . . . . . Seal defining sector-shaped flow area |
DIG 23 | ![[Patents]](../gifs/ps.gif) | . . . . . Brush-type seal |
DIG 24 | ![[Patents]](../gifs/ps.gif) | . . . . Circumferential seal |
DIG 25 | ![[Patents]](../gifs/ps.gif) | . . . . Heat resistant material seal |
DIG 26 | ![[Patents]](../gifs/ps.gif) | . . . Seal attached to and rotating with storage mass |
DIG 27 | ![[Patents]](../gifs/ps.gif) | . . . With particular rotary bearing or drive means |
DIG 28 | ![[Patents]](../gifs/ps.gif) | . . . . Ring gear surrounding cylindrical storage mass |
DIG 29 | ![[Patents]](../gifs/ps.gif) | . . . Cylindrical storage mass with axial flow passages |
DIG 30 | ![[Patents]](../gifs/ps.gif) | . Mass formed of modules arranged in three dimensional matrix ("Checkerwork") |
DIG 31 | ![[Patents]](../gifs/ps.gif) | . . Gradated flow area, heat capacity or conductivity |
DIG 32 | ![[Patents]](../gifs/ps.gif) | . . Having gas supply or exhaust manifold structure |
DIG 33 | ![[Patents]](../gifs/ps.gif) | . . . With flow control device (i.e. valve) |
DIG 34 | ![[Patents]](../gifs/ps.gif) | . . . With flow distributing baffle |
DIG 35 | ![[Patents]](../gifs/ps.gif) | . . In casing |
DIG 36 | ![[Patents]](../gifs/ps.gif) | . . Distinct passages formed in individual modules |
DIG 37 | ![[Patents]](../gifs/ps.gif) | . Having flow diverting means (e.g. valve) to selectively control flow through storage mass |
DIG 38 | ![[Patents]](../gifs/ps.gif) | . . Correlated control of plural diverting means |
DIG 39 | ![[Patents]](../gifs/ps.gif) | . . . Synchronously rotated flow guiding hoods disposed on opposite sides of fixed regenerator |
DIG 40 | ![[Patents]](../gifs/ps.gif) | . . . Linearly movable diverting means |
DIG 41 | ![[Patents]](../gifs/ps.gif) | . . Rotary diverting means |
DIG 42 | ![[Patents]](../gifs/ps.gif) | . Particular structure of heat storage mass |
DIG 43 | ![[Patents]](../gifs/ps.gif) | . . Element for constructing regenerator rotor |
DIG 44 | ![[Patents]](../gifs/ps.gif) | HAVING FLEXIBLE HEAT EXCHANGE SURFACE CONFORMING TO A SOLID STRUCTURE (E.G., APPLICATOR, ETC.) |
DIG 45 | ![[Patents]](../gifs/ps.gif) | . Conform to head, neck, or face |
DIG 46 | ![[Patents]](../gifs/ps.gif) | . Heat exchange body suit |
DIG 47 | ![[Patents]](../gifs/ps.gif) | . For cooling |
DIG 48 | ![[Patents]](../gifs/ps.gif) | . . Electrical component |
DIG 49 | ![[Patents]](../gifs/ps.gif) | . . Or for heating |
DIG 50 | ![[Patents]](../gifs/ps.gif) | . . . Including a pump or valve |
DIG 51 | ![[Patents]](../gifs/ps.gif) | HAVING EXPANSION AND CONTRACTION RELIEVING OR ABSORBING MEANS |
DIG 52 | ![[Patents]](../gifs/ps.gif) | . For cylindrical heat exchanger |
DIG 53 | ![[Patents]](../gifs/ps.gif) | . . Flexible or movable header or header element |
DIG 54 | ![[Patents]](../gifs/ps.gif) | . . . Movable header (e.g., floating header, etc.) |
DIG 55 | ![[Patents]](../gifs/ps.gif) | . . . . Including guiding means for movable header |
DIG 56 | ![[Patents]](../gifs/ps.gif) | . . . . . Fluid sealing means between movable header and enclosure |
DIG 57 | ![[Patents]](../gifs/ps.gif) | . . . Flexing tubesheet |
DIG 58 | ![[Patents]](../gifs/ps.gif) | . . . Movable tubesheet (e.g., floating tubesheet, etc.) |
DIG 59 | ![[Patents]](../gifs/ps.gif) | . . . . Tubesheet connected to enclosure by expansion joint |
DIG 60 | ![[Patents]](../gifs/ps.gif) | . . Expandable casing for cylindrical heat exchanger |
DIG 61 | ![[Patents]](../gifs/ps.gif) | . . . For plural cylindrical heat exchangers |
DIG 62 | ![[Patents]](../gifs/ps.gif) | . . . Having particular external casing support means |
DIG 63 | ![[Patents]](../gifs/ps.gif) | . . Cylindrical heat exchanger fixed to fixed end supports |
DIG 64 | ![[Patents]](../gifs/ps.gif) | . . . Including intermediate support |
DIG 65 | ![[Patents]](../gifs/ps.gif) | . . . Bent cylindrical heat exchanger |
DIG 66 | ![[Patents]](../gifs/ps.gif) | . . . . Coiled |
DIG 67 | ![[Patents]](../gifs/ps.gif) | . . Cylindrical heat exchanger rectilinearly slidable relative to its support |
DIG 68 | ![[Patents]](../gifs/ps.gif) | . . . Including fluid seal |
DIG 69 | ![[Patents]](../gifs/ps.gif) | . . Pivotal support for cylindrical heat exchanger |
DIG 70 | ![[Patents]](../gifs/ps.gif) | . . Resilient fluid seal |
DIG 71 | ![[Patents]](../gifs/ps.gif) | . Resilient fluid seal for plate-type heat exchanger |
DIG 72 | ![[Patents]](../gifs/ps.gif) | AGITATOR OR IMPELLER MOTOR OPERATED BY FIRST HEAT EXCHANGE FLUID |
DIG 73 | ![[Patents]](../gifs/ps.gif) | . To agitate or move second heat exchange fluid |
DIG 74 | ![[Patents]](../gifs/ps.gif) | . . Agitator structure confines first heat exchange fluid |
DIG 75 | ![[Patents]](../gifs/ps.gif) | . . Agitator structure confines second heat exchange fluid |
DIG 76 | ![[Patents]](../gifs/ps.gif) | WITH SCRAPER FOR REMOVING PRODUCT FROM HEAT TRANSFER SURFACE |
DIG 77 | ![[Patents]](../gifs/ps.gif) | . Screw shaped scraper |
DIG 78 | ![[Patents]](../gifs/ps.gif) | . Linearly operated scraper |
DIG 79 | ![[Patents]](../gifs/ps.gif) | . . Reciprocated linearly |
DIG 80 | ![[Patents]](../gifs/ps.gif) | . Plural scrapers for spaced shelves or chambers |
DIG 81 | ![[Patents]](../gifs/ps.gif) | . Rotary heat exchange scraper or scraper for rotary heat exchange surface |
DIG 82 | ![[Patents]](../gifs/ps.gif) | . . Grooved drum surface |
DIG 83 | ![[Patents]](../gifs/ps.gif) | . . Scraper attached to or formed part of rotary heat exchange fluid surface |
DIG 84 | ![[Patents]](../gifs/ps.gif) | . . Scraper within annular space formed by concentric cylinders or concentric conical surfaces |
DIG 85 | ![[Patents]](../gifs/ps.gif) | . . Scraper for cleaning inner surface of rotary heat exchange surface |
DIG 86 | ![[Patents]](../gifs/ps.gif) | . . Weight operated scraper |
DIG 87 | ![[Patents]](../gifs/ps.gif) | . . Spring pressed scraper |
DIG 88 | ![[Patents]](../gifs/ps.gif) | . . Adjustable scraper |
DIG 89 | ![[Patents]](../gifs/ps.gif) | . . For scraping flat horizontal surface |
DIG 90 | ![[Patents]](../gifs/ps.gif) | . . Scraper blade movable relative to scraper blade support (e.g., pivoting blade, rocking blade, etc.) |
DIG 91 | ![[Patents]](../gifs/ps.gif) | . . For scraping wall of cylindrical heat exchanger |
DIG 92 | ![[Patents]](../gifs/ps.gif) | WITH VALVE OR MOVABLE DEFLECTOR FOR HEAT EXCHANGE FLUID FLOW |
DIG 93 | ![[Patents]](../gifs/ps.gif) | . Adjustable radiator face covering means (e.g., adjustable shield for car radiator, heater core, etc.) |
DIG 94 | ![[Patents]](../gifs/ps.gif) | . . Windowshade type (i.e. sheet feeds off roller) |
DIG 95 | ![[Patents]](../gifs/ps.gif) | . . Rectilinear sliding movement of adjustable cover |
DIG 96 | ![[Patents]](../gifs/ps.gif) | . . Pivotal movement of adjustable cover |
DIG 97 | ![[Patents]](../gifs/ps.gif) | . . . Plural parallel pivotable shutters |
DIG 98 | ![[Patents]](../gifs/ps.gif) | . . . . One shutter section having different flow area or flow direction with another shutter section |
DIG 99 | ![[Patents]](../gifs/ps.gif) | . . . . With fan |
DIG 100 | ![[Patents]](../gifs/ps.gif) | . Flow direction reversed through heat exchanger |
DIG 101 | ![[Patents]](../gifs/ps.gif) | . For controlling supply of heat exchange fluid flowing between hydraulically independent heat exchange sections |
DIG 102 | ![[Patents]](../gifs/ps.gif) | . . Hydraulically independent single-confined-fluid radiator sections for heating ambient air |
DIG 103 | ![[Patents]](../gifs/ps.gif) | . . . Valves each controls a radiator section |
DIG 104 | ![[Patents]](../gifs/ps.gif) | . . Hydraulically independent heat exchange sections connected in parallel |
DIG 105 | ![[Patents]](../gifs/ps.gif) | . . . Correlated valves |
DIG 106 | ![[Patents]](../gifs/ps.gif) | . . . Valves each controls a heat exchange section |
DIG 107 | ![[Patents]](../gifs/ps.gif) | . . . . Hydraulically independent heat exchange tubes disposed in housing (e.g., tank, casing, etc.) |
DIG 108 | ![[Patents]](../gifs/ps.gif) | . . . . . Coiled tubes |
DIG 109 | ![[Patents]](../gifs/ps.gif) | . With by-pass of heat exchanger or heat exchanger section |
DIG 110 | ![[Patents]](../gifs/ps.gif) | . . Bypass within or surrounds heat exchanger |
DIG 111 | ![[Patents]](../gifs/ps.gif) | . . . Heat exchanger enclosing a fluid conduit confining second heat exchange fluid |
DIG 112 | ![[Patents]](../gifs/ps.gif) | . . . . Stove pipe drum having air draft passage for heating ambient air |
DIG 113 | ![[Patents]](../gifs/ps.gif) | . . . Bypass centrally located in heat exchanger |
DIG 114 | ![[Patents]](../gifs/ps.gif) | . . . . Having perforated wall |
DIG 115 | ![[Patents]](../gifs/ps.gif) | . . . . Surrounding by a helical flow channel |
DIG 116 | ![[Patents]](../gifs/ps.gif) | . . . . Plural adjacent flow channel parallel to central bypass |
DIG 117 | ![[Patents]](../gifs/ps.gif) | . . . . . Arranged for series flow therethrough |
DIG 118 | ![[Patents]](../gifs/ps.gif) | . . . Serpentine heat exchange flow path |
DIG 119 | ![[Patents]](../gifs/ps.gif) | . . . Bypass controlled by pivotal damper |
DIG 120 | ![[Patents]](../gifs/ps.gif) | . . U or serpentine heat exchange flow path |
DIG 121 | ![[Patents]](../gifs/ps.gif) | . . . Serpentine heat exchange flow path |
DIG 122 | ![[Patents]](../gifs/ps.gif) | . . . U heat exchange flow path and linear bypass |
DIG 123 | ![[Patents]](../gifs/ps.gif) | . Heat exchange flow path through heat exchanger altered (e.g., crossed, etc.) |
DIG 124 | ![[Patents]](../gifs/ps.gif) | . . Stove pipe drum |
DIG 125 | ![[Patents]](../gifs/ps.gif) | . . . Valve mounted on fixed deflector |
DIG 126 | ![[Patents]](../gifs/ps.gif) | . Total flow rate through heat exchanger controlled by valve |
DIG 127 | ![[Patents]](../gifs/ps.gif) | . . Stove pipe drum |
DIG 128 | ![[Patents]](../gifs/ps.gif) | . . . Including air draft passage for heating ambient air |
DIG 129 | ![[Patents]](../gifs/ps.gif) | . . Valve regulates flow through housing enclosing heat exchanger |
DIG 130 | ![[Patents]](../gifs/ps.gif) | . . . Including valve regulating flow through heat exchanger |
DIG 131 | ![[Patents]](../gifs/ps.gif) | . . Single-confined-fluid radiator for heating ambient air |
DIG 132 | ![[Patents]](../gifs/ps.gif) | WITH ADJUSTOR FOR HEAT FLOW |
DIG 133 | ![[Patents]](../gifs/ps.gif) | . Conduction rate |
DIG 134 | ![[Patents]](../gifs/ps.gif) | . . By varying thickness of conductive layer (e.g., air gap, etc.) |
DIG 135 | ![[Patents]](../gifs/ps.gif) | MOVABLE HEAT EXCHANGER |
DIG 136 | ![[Patents]](../gifs/ps.gif) | . Movable belt or strip transfers heat to or from objects or material thereon |
DIG 137 | ![[Patents]](../gifs/ps.gif) | . Unconstrained movement (e.g., float, etc.) |
DIG 138 | ![[Patents]](../gifs/ps.gif) | . Partially rotable (e.g, rocking, pivoting, oscillation, tilting, etc.) |
DIG 139 | ![[Patents]](../gifs/ps.gif) | . Fully rotatable |
DIG 140 | ![[Patents]](../gifs/ps.gif) | . . Rotating heat exchanger having rotating flow confining structures or chambers for two separate heat exchange fluids |
DIG 141 | ![[Patents]](../gifs/ps.gif) | . . . Concentric flow confining structures or chambers |
DIG 142 | ![[Patents]](../gifs/ps.gif) | . . . . Jacketed shell |
DIG 143 | ![[Patents]](../gifs/ps.gif) | . . . Discrete tubing having length extending along a longitudinal axis of rotating heat exchanger |
DIG 144 | ![[Patents]](../gifs/ps.gif) | . . . . Helical |
DIG 145 | ![[Patents]](../gifs/ps.gif) | . . Radially extending hollow arm on rotating shaft traverses furnance shelf (e.g., rabble arm, etc.) |
DIG 146 | ![[Patents]](../gifs/ps.gif) | . . . Angled blade suspended from arm for advancing material |
DIG 147 | ![[Patents]](../gifs/ps.gif) | . . Fluid impeller or material advancer |
DIG 148 | ![[Patents]](../gifs/ps.gif) | . . . Auger |
DIG 149 | ![[Patents]](../gifs/ps.gif) | . . . . Having hollow blade |
DIG 150 | ![[Patents]](../gifs/ps.gif) | . . . Radial or axial impeller |
DIG 151 | ![[Patents]](../gifs/ps.gif) | . . . . Having hollow blade |
DIG 152 | ![[Patents]](../gifs/ps.gif) | . . Rotating agitator |
DIG 153 | ![[Patents]](../gifs/ps.gif) | . . . Flow space or fluid chamber defined between two relatively movable, closely spaced coextensive surfaces |
DIG 154 | ![[Patents]](../gifs/ps.gif) | . . . Hollow tubing rotates in vessel to stir contents |
DIG 155 | ![[Patents]](../gifs/ps.gif) | . . . . Tubing has radially or axially extending sections |
DIG 156 | ![[Patents]](../gifs/ps.gif) | . . Hollow cylindrical member (e.g., drum, etc.) |
DIG 157 | ![[Patents]](../gifs/ps.gif) | . . . Fluid sprayed onto surface of rotatable cylinder |
DIG 158 | ![[Patents]](../gifs/ps.gif) | . . . Having stationary material removal means |
DIG 159 | ![[Patents]](../gifs/ps.gif) | . . . With particular flow path or defined fluid chamber (e.g., annulus, spiral, etc.) |
DIG 160 | ![[Patents]](../gifs/ps.gif) | . . . . Concentric shells define annular flow space |
DIG 161 | ![[Patents]](../gifs/ps.gif) | . . . . . With means defining particular flow path (e.g., baffle, etc.) |
DIG 162 | ![[Patents]](../gifs/ps.gif) | ONLY DIRECT-CONTACT HEAT EXCHANGE BETWEEN TWO SEPARATELY SUPPLIED FLUIDS |
DIG 163 | ![[Patents]](../gifs/ps.gif) | INCLUDING A MEANS TO FORM FLUID FILM ON HEAT TRANSFER SURFACE (E.G., TRICKLE) |
DIG 164 | ![[Patents]](../gifs/ps.gif) | . Film flow constrained to spiral path |
DIG 165 | ![[Patents]](../gifs/ps.gif) | . Film formed on spirally coiled member |
DIG 166 | ![[Patents]](../gifs/ps.gif) | . Vertically spaced pipe sections contact liquid in underlying troughs |
DIG 167 | ![[Patents]](../gifs/ps.gif) | . Liquid film flows sequentially along upper surfaces of vertically spaced trays (i.e. shelf-to-shelf) |
DIG 168 | ![[Patents]](../gifs/ps.gif) | . Film formed on interior surface of container or pipe |
DIG 169 | ![[Patents]](../gifs/ps.gif) | . . Inside of vertical pipe |
DIG 170 | ![[Patents]](../gifs/ps.gif) | . . . Distributor "cap" mounted in top end of pipe |
DIG 171 | ![[Patents]](../gifs/ps.gif) | . Including means at top end of vertical pipe to distribute liquid film on pipe exterior |
DIG 172 | ![[Patents]](../gifs/ps.gif) | . Film flows along exterior of plural pipe sections |
DIG 173 | ![[Patents]](../gifs/ps.gif) | . . Pipe exterior surfaces about to form continuous surface |
DIG 174 | ![[Patents]](../gifs/ps.gif) | . . Intervening members extend between spaced pipe sections to form continuous surface |
DIG 175 | ![[Patents]](../gifs/ps.gif) | . . Horizontally extending, parallel sections disposed in vertical array (i.e. one pipe directly above another) |
DIG 176 | ![[Patents]](../gifs/ps.gif) | . . . With means suspended beneath pipe surface to guide liquid droplets |
DIG 177 | ![[Patents]](../gifs/ps.gif) | . Film flows along upper surface of tray |
DIG 178 | ![[Patents]](../gifs/ps.gif) | . . Parallel corrugated vertical sheets formed fluid passage therebetween |
DIG 179 | ![[Patents]](../gifs/ps.gif) | . . Container enclosed by casing |
DIG 180 | ![[Patents]](../gifs/ps.gif) | . . Vertically disposable elongated member |
DIG 181 | ![[Patents]](../gifs/ps.gif) | . . Horizontally disposable elongated member |
DIG 182 | ![[Patents]](../gifs/ps.gif) | INDIRECT-CONTACT COOLING TOWER |
DIG 183 | ![[Patents]](../gifs/ps.gif) | INDIRECT-CONTACT EVAPORATOR |
DIG 184 | ![[Patents]](../gifs/ps.gif) | INDIRECT-CONTACT CONDENSER |
DIG 185 | ![[Patents]](../gifs/ps.gif) | . Having stacked plates forming flow channel therebetween |
DIG 186 | ![[Patents]](../gifs/ps.gif) | . . Stacked plates surrounded by housing confining another fluid |
DIG 187 | ![[Patents]](../gifs/ps.gif) | . Having pump downstream of condenser |
DIG 188 | ![[Patents]](../gifs/ps.gif) | . . Pump to remove only uncondensed vapor or air |
DIG 189 | ![[Patents]](../gifs/ps.gif) | . . . From a first-stage direct-contact condenser |
DIG 190 | ![[Patents]](../gifs/ps.gif) | . . . Including second-stage indirect-contact condenser |
DIG 191 | ![[Patents]](../gifs/ps.gif) | . . . Including second-stage direct-contact condenser |
DIG 192 | ![[Patents]](../gifs/ps.gif) | . Including means to heat collected condensate |
DIG 193 | ![[Patents]](../gifs/ps.gif) | . First-stage condenser serially connected to second-stage condenser |
DIG 194 | ![[Patents]](../gifs/ps.gif) | . . First stage direct-contact condenser |
DIG 195 | ![[Patents]](../gifs/ps.gif) | . Including condensate collecting tray connected to condensate drain conduit to divert condensate around a section of heat transfer surface |
DIG 196 | ![[Patents]](../gifs/ps.gif) | . Baffle defines flow passage within header for condensate to bypass portion of vapor flow path |
DIG 197 | ![[Patents]](../gifs/ps.gif) | . Including means for (removing) condensate (from vapor flow path) to bypass portion of vapor flow path |
DIG 198 | ![[Patents]](../gifs/ps.gif) | . Condensate guiding means attached to heat transfer surface |
DIG 199 | ![[Patents]](../gifs/ps.gif) | . . Heat transfer tube surrounds by jacket condensate guiding means |
DIG 200 | ![[Patents]](../gifs/ps.gif) | . . Condensate guiding means forms inside heat transfer tube |
DIG 201 | ![[Patents]](../gifs/ps.gif) | . . Including fin member associated with condensate guiding means |
DIG 202 | ![[Patents]](../gifs/ps.gif) | . Vapor flow passage between vapor inlet and outlet has decreasing cross- sectional area |
DIG 203 | ![[Patents]](../gifs/ps.gif) | . . Coolant tubes arranged in groups to form vapor flow lanes of decreasing cross-sectional area |
DIG 204 | ![[Patents]](../gifs/ps.gif) | . Including a direct-contact heat exchange chamber |
DIG 205 | ![[Patents]](../gifs/ps.gif) | . Space for condensable vapor surrounds space for coolant |
DIG 206 | ![[Patents]](../gifs/ps.gif) | . . Including coiled heat exchange tube |
DIG 207 | ![[Patents]](../gifs/ps.gif) | . . Distinct outlets for separated condensate and gas |
DIG 208 | ![[Patents]](../gifs/ps.gif) | . . . Including vapor guide plate extending across vapor inlet |
DIG 209 | ![[Patents]](../gifs/ps.gif) | . . . Including tube banks arranged in undulating pattern (e.g., w shape) |
DIG 210 | ![[Patents]](../gifs/ps.gif) | . . . Including perforated baffle completely surrounding a group of coolant tube |
DIG 211 | ![[Patents]](../gifs/ps.gif) | . . . Including concave member adjacent to vapor outlet and partially covering a group of coolant tubes |
DIG 212 | ![[Patents]](../gifs/ps.gif) | . . . Including inclined flat condensate guiding means |
DIG 213 | ![[Patents]](../gifs/ps.gif) | . . . Including baffle partially covering a group of coolant tubes |
DIG 214 | ![[Patents]](../gifs/ps.gif) | . . . Including baffle structure for reversing flow direction of vapor |
DIG 215 | ![[Patents]](../gifs/ps.gif) | . . Having longitudinal partition extending parallel to longitudinal axis of coolant tube |
DIG 216 | ![[Patents]](../gifs/ps.gif) | . . Having partition transverse to longitudinal axis of coolant tube |
DIG 217 | ![[Patents]](../gifs/ps.gif) | . Space for coolant surrounds space for vapor |
DIG 218 | ![[Patents]](../gifs/ps.gif) | . . Condensor adapted to cover opening at top of vapor generator |
DIG 219 | ![[Patents]](../gifs/ps.gif) | . . . Radiator cap condenser |
DIG 220 | ![[Patents]](../gifs/ps.gif) | . . U-shaped or spur tubes connected to adjacent inlet and outlet headers |
DIG 221 | ![[Patents]](../gifs/ps.gif) | . . Vapor is the only confined fluid |
DIG 222 | ![[Patents]](../gifs/ps.gif) | . . . Plural parallel tubes confining vapor connecting between spaced headers |
DIG 223 | ![[Patents]](../gifs/ps.gif) | . . Vapor tube enclosed by coolant confining shell |
DIG 224 | ![[Patents]](../gifs/ps.gif) | INCLUDING A MEANS TO FORM A FLUID JET |
DIG 225 | ![[Patents]](../gifs/ps.gif) | WITH SOLID CONVEYOR |
DIG 226 | ![[Patents]](../gifs/ps.gif) | . Screw conveyor |
DIG 227 | ![[Patents]](../gifs/ps.gif) | . Belt conveyor |
DIG 228 | ![[Patents]](../gifs/ps.gif) | WITH FAN OR PUMP |
DIG 229 | ![[Patents]](../gifs/ps.gif) | . Screw conveyor in pipe or tank |
DIG 300 | ![[Patents]](../gifs/ps.gif) | . Injector-type pump |
DIG 301 | ![[Patents]](../gifs/ps.gif) | . . Having nested nozzles |
DIG 302 | ![[Patents]](../gifs/ps.gif) | . Rotary gas pump |
DIG 303 | ![[Patents]](../gifs/ps.gif) | . . Annular heat exchanger |
DIG 304 | ![[Patents]](../gifs/ps.gif) | . . . Axial impeller |
DIG 305 | ![[Patents]](../gifs/ps.gif) | . . . . Located at heat-exchange housing inlet |
DIG 306 | ![[Patents]](../gifs/ps.gif) | . . . . Located at heat-exchange housing outlet |
DIG 307 | ![[Patents]](../gifs/ps.gif) | . . Including plural impellers |
DIG 308 | ![[Patents]](../gifs/ps.gif) | . . . Coaxial impellers |
DIG 309 | ![[Patents]](../gifs/ps.gif) | . . . . Radial impeller |
DIG 310 | ![[Patents]](../gifs/ps.gif) | . . Heat exchanger located at housing inlet or outlet |
DIG 311 | ![[Patents]](../gifs/ps.gif) | . . Including particular flow deflector (e.g., shroud, diffuser, etc.) |
DIG 312 | ![[Patents]](../gifs/ps.gif) | . . . Plural parallel deflectors |
DIG 313 | ![[Patents]](../gifs/ps.gif) | . . . Deflector with curved surface |
DIG 314 | ![[Patents]](../gifs/ps.gif) | . . Radial impeller |
DIG 315 | ![[Patents]](../gifs/ps.gif) | . . . Located at heat-exchange housing inlet |
DIG 316 | ![[Patents]](../gifs/ps.gif) | . . Axial impeller located at heat-exchange housing inlet |
DIG 317 | ![[Patents]](../gifs/ps.gif) | . . Axial impeller located at heat-exchange housing outlet |
DIG 318 | ![[Patents]](../gifs/ps.gif) | WITH DRIVEN AGITATOR |
DIG 319 | ![[Patents]](../gifs/ps.gif) | . Linearly moving agitator |
DIG 320 | ![[Patents]](../gifs/ps.gif) | . Fully rotary agitator |
DIG 321 | ![[Patents]](../gifs/ps.gif) | . . Generating toroidal flow |
DIG 322 | ![[Patents]](../gifs/ps.gif) | . . Including heat exchange jacket-walls |
DIG 323 | ![[Patents]](../gifs/ps.gif) | . . . Heating or cooling coil disposed between jacket-walls |
DIG 324 | ![[Patents]](../gifs/ps.gif) | . . . Agitator having blade sections mounted along rotating shaft |
DIG 325 | ![[Patents]](../gifs/ps.gif) | . . Blade sections mounted along rotating shaft |
DIG 326 | ![[Patents]](../gifs/ps.gif) | . . Agitator and heating or cooling coil disposed in same housing |
DIG 327 | ![[Patents]](../gifs/ps.gif) | THERMOSYPHONIC HAVING VERTICAL AIR DRAFT PASSAGE |
DIG 328 | ![[Patents]](../gifs/ps.gif) | . Air draft passage confined entirely or in part by fin structure |
DIG 329 | ![[Patents]](../gifs/ps.gif) | . . Corrugated fin attached to heat transfer surface |
DIG 330 | ![[Patents]](../gifs/ps.gif) | . . Air draft passage is parallel to flow direction of heating or cooling means |
DIG 331 | ![[Patents]](../gifs/ps.gif) | . Air draft passage confined entirely by heat transfer surface |
DIG 332 | ![[Patents]](../gifs/ps.gif) | . . Coaxial ducts define air draft passage and annular passage for heat exchange fluid |
DIG 333 | ![[Patents]](../gifs/ps.gif) | . . . Including baffle |
DIG 334 | ![[Patents]](../gifs/ps.gif) | . . . . Baffle located in annular passage |
DIG 335 | ![[Patents]](../gifs/ps.gif) | . . Plural air draft passages enclosed by casing |
DIG 336 | ![[Patents]](../gifs/ps.gif) | . . . Angled air draft passage |
DIG 337 | ![[Patents]](../gifs/ps.gif) | . Heating or cooling means entirely surrounded by air draft passage forming casing |
DIG 338 | ![[Patents]](../gifs/ps.gif) | . . Nested or concentric members define annular air draft passage and heating or cooling conduit |
DIG 339 | ![[Patents]](../gifs/ps.gif) | . . . With baffle |
DIG 340 | ![[Patents]](../gifs/ps.gif) | . . Including flow baffle in casing |
DIG 341 | ![[Patents]](../gifs/ps.gif) | . . Parallel heating or cooling tubes or tubular sections (e.g., coil, serpentine, etc.) |
DIG 342 | ![[Patents]](../gifs/ps.gif) | TANK WITH HEAT EXCHANGER |
DIG 343 | ![[Patents]](../gifs/ps.gif) | . Heat exchanger forms all or portion of tank |
DIG 344 | ![[Patents]](../gifs/ps.gif) | . . Spiral coil forms hemispherical vessel |
DIG 345 | ![[Patents]](../gifs/ps.gif) | . . Jacketed vessel |
DIG 346 | ![[Patents]](../gifs/ps.gif) | . . . Flow baffle or fin in annular flow space |
DIG 347 | ![[Patents]](../gifs/ps.gif) | . Heat exchanger forms cover for tank |
DIG 348 | ![[Patents]](../gifs/ps.gif) | . Heat exchanger within tank |
DIG 349 | ![[Patents]](../gifs/ps.gif) | . . Supported by cover for tank |
DIG 350 | ![[Patents]](../gifs/ps.gif) | . . Tubing removably coupled to inlet and outlet at tank wall |
DIG 351 | ![[Patents]](../gifs/ps.gif) | . . Spaced from tank wall |
DIG 352 | ![[Patents]](../gifs/ps.gif) | . . Flow directing baffle associated with heat exchanger tubing |
DIG 353 | ![[Patents]](../gifs/ps.gif) | . Tube coil bonded directly to tank exterior |
DIG 354 | ![[Patents]](../gifs/ps.gif) | . Heat exchanger serially connected to tank |
DIG 355 | ![[Patents]](../gifs/ps.gif) | HAVING SEPARATE FLOW PASSAGE FOR TWO DISTINCT FLUIDS |
DIG 356 | ![[Patents]](../gifs/ps.gif) | . Plural plates forming a stack providing flow passages therein |
DIG 357 | ![[Patents]](../gifs/ps.gif) | . . Forming annular heat exchanger |
DIG 358 | ![[Patents]](../gifs/ps.gif) | . . . Radially arranged plates |
DIG 359 | ![[Patents]](../gifs/ps.gif) | . . Including means for modifying thermal stress in heat exchange plate |
DIG 360 | ![[Patents]](../gifs/ps.gif) | . . Stacked plates having plurality of perforations |
DIG 361 | ![[Patents]](../gifs/ps.gif) | . . Circular flow passages between plates |
DIG 362 | ![[Patents]](../gifs/ps.gif) | . . Heat exchange liquids separated by double walls |
DIG 363 | ![[Patents]](../gifs/ps.gif) | . . Slotted plates forming grid |
DIG 364 | ![[Patents]](../gifs/ps.gif) | . . With fluid traversing passages formed through the plate |
DIG 365 | ![[Patents]](../gifs/ps.gif) | . . . Including peripheral seal element forming flow channel bounded by seal and heat exchange plates |
DIG 366 | ![[Patents]](../gifs/ps.gif) | . . . . Rigid or semi-rigid peripheral seal frame |
DIG 367 | ![[Patents]](../gifs/ps.gif) | . . . . Peripheral seal element between corrugated heat exchange plates |
DIG 368 | ![[Patents]](../gifs/ps.gif) | . . . . . Including angled corrugations with respect to flow direction |
DIG 369 | ![[Patents]](../gifs/ps.gif) | . . . . Including seal to plate attachment means |
DIG 370 | ![[Patents]](../gifs/ps.gif) | . . . Unitary heat exchange plate and projecting edge |
DIG 371 | ![[Patents]](../gifs/ps.gif) | . . . Including mating flanges around fluid traversing passage |
DIG 372 | ![[Patents]](../gifs/ps.gif) | . . . Adjacent heat exchange plates having joined bent edge flanges for forming flow channels therebetween |
DIG 373 | ![[Patents]](../gifs/ps.gif) | . . Adjacent heat exchange plates having joined bent edge flanges for forming flow channels therebetween |
DIG 374 | ![[Patents]](../gifs/ps.gif) | . . . Liquid to air heat exchanger having liquid passage formed by joined sheets |
DIG 375 | ![[Patents]](../gifs/ps.gif) | . . . . Transverse air tubes |
DIG 376 | ![[Patents]](../gifs/ps.gif) | . . . . Air passages defined by spacing projections of sheets |
DIG 377 | ![[Patents]](../gifs/ps.gif) | . . . . . Spacing projections formed by folded sheet portions |
DIG 378 | ![[Patents]](../gifs/ps.gif) | . . . . . . Including intermediate sheet supporting opposed spacing projections |
DIG 379 | ![[Patents]](../gifs/ps.gif) | . . . . Including corrugated air fin passages between adjacent liquid passages |
DIG 380 | ![[Patents]](../gifs/ps.gif) | . . . . . Air fin conforms to joined corrugated sheets forming plural liquid chambers |
DIG 381 | ![[Patents]](../gifs/ps.gif) | . . . . . Including air fin apertures |
DIG 382 | ![[Patents]](../gifs/ps.gif) | . . . Overlapping flanges |
DIG 383 | ![[Patents]](../gifs/ps.gif) | . . . Interlocking flanges |
DIG 384 | ![[Patents]](../gifs/ps.gif) | . . . Thermally bonded side edges |
DIG 385 | ![[Patents]](../gifs/ps.gif) | . . Bent sheet forming a single tube |
DIG 386 | ![[Patents]](../gifs/ps.gif) | . . . To form only air passages |
DIG 387 | ![[Patents]](../gifs/ps.gif) | . . Including side-edge seal or edge spacer bar |
DIG 388 | ![[Patents]](../gifs/ps.gif) | . . . Including spacer bar transverse to plate stack |
DIG 389 | ![[Patents]](../gifs/ps.gif) | . . . Flow enhancer integral with side-edge seal or edge spacer bar |
DIG 390 | ![[Patents]](../gifs/ps.gif) | . . . Flange element to connect two adjacent heat exchange plates |
DIG 391 | ![[Patents]](../gifs/ps.gif) | . . . Including intermediate corrugated element |
DIG 392 | ![[Patents]](../gifs/ps.gif) | . . . Unitary heat exchange plate and projecting edge |
DIG 393 | ![[Patents]](../gifs/ps.gif) | . . Including additional element between heat exchange plates |
DIG 394 | ![[Patents]](../gifs/ps.gif) | . . . Corrugated heat exchange plate |
DIG 395 | ![[Patents]](../gifs/ps.gif) | . Monolithic core having flow passages for two different fluids (e.g., one- piece ceramic, etc.) |
DIG 396 | ![[Patents]](../gifs/ps.gif) | . . Plurality of stacked monolithic cores |
DIG 397 | ![[Patents]](../gifs/ps.gif) | . . Including conduits embedded in monolithic block |
DIG 398 | ![[Patents]](../gifs/ps.gif) | . Spirally bent heat exchange plate |
DIG 399 | ![[Patents]](../gifs/ps.gif) | . Corrugated heat exchange plate |
DIG 400 | ![[Patents]](../gifs/ps.gif) | . Shell enclosed conduit assembly |
DIG 401 | ![[Patents]](../gifs/ps.gif) | . . Including tube support or shell-side flow director |
DIG 402 | ![[Patents]](../gifs/ps.gif) | . . . Manifold for shell-side fluid |
DIG 403 | ![[Patents]](../gifs/ps.gif) | . . . Preheater for shell-side fluid for preventing thermal shock to tube sheet |
DIG 404 | ![[Patents]](../gifs/ps.gif) | . . . Serially connected separate shells |
DIG 405 | ![[Patents]](../gifs/ps.gif) | . . . Extending in a longitudinal direction |
DIG 406 | ![[Patents]](../gifs/ps.gif) | . . . . Helically or spirally shaped |
DIG 407 | ![[Patents]](../gifs/ps.gif) | . . . . Internal casing or tube sleeve |
DIG 408 | ![[Patents]](../gifs/ps.gif) | . . . . . Tube sleeve |
DIG 409 | ![[Patents]](../gifs/ps.gif) | . . . . . Including transverse element (e.g., fin, baffle, etc.) |
DIG 410 | ![[Patents]](../gifs/ps.gif) | . . . . . . Movable internal casing connecting to transverse element |
DIG 411 | ![[Patents]](../gifs/ps.gif) | . . . . Connecting to shell by specific structure |
DIG 412 | ![[Patents]](../gifs/ps.gif) | . . . . Including transverse element (e.g., fin, baffle, etc.) |
DIG 413 | ![[Patents]](../gifs/ps.gif) | . . . . For directing flow along the length of tube |
DIG 414 | ![[Patents]](../gifs/ps.gif) | . . . . For supporting coil tubes |
DIG 415 | ![[Patents]](../gifs/ps.gif) | . . . . Including perforations |
DIG 416 | ![[Patents]](../gifs/ps.gif) | . . . Extending transverse of shell (e.g., fin, baffle, etc.) |
DIG 417 | ![[Patents]](../gifs/ps.gif) | . . . . Including spacer or support for transverse tube support or shell-side flow director |
DIG 418 | ![[Patents]](../gifs/ps.gif) | . . . . . Tubular spacer sleeve |
DIG 419 | ![[Patents]](../gifs/ps.gif) | . . . . . Spacer or support connected to shell |
DIG 420 | ![[Patents]](../gifs/ps.gif) | . . . . Segmented plate |
DIG 421 | ![[Patents]](../gifs/ps.gif) | . . . . Disc and donut plates |
DIG 422 | ![[Patents]](../gifs/ps.gif) | . . . . Unitary tube support or shell-side flow director carried by single tube |
DIG 423 | ![[Patents]](../gifs/ps.gif) | . . . . Bar |
DIG 424 | ![[Patents]](../gifs/ps.gif) | . . . . . Forming grid structure |
DIG 425 | ![[Patents]](../gifs/ps.gif) | . . . . . Having ends connected to ring element |
DIG 426 | ![[Patents]](../gifs/ps.gif) | . . . . Clamped tube spacer or support |
DIG 427 | ![[Patents]](../gifs/ps.gif) | . . Manifold for tube-side fluid (i.e., parallel) |
DIG 428 | ![[Patents]](../gifs/ps.gif) | . . . Including flow director in manifold |
DIG 429 | ![[Patents]](../gifs/ps.gif) | . . . Line-connected conduit assemblies |
DIG 430 | ![[Patents]](../gifs/ps.gif) | . . . . Manifolds connected in parallel (e.g., Multi-stage, etc.) |
DIG 431 | ![[Patents]](../gifs/ps.gif) | . . . . Manifolds connected in series |
DIG 432 | ![[Patents]](../gifs/ps.gif) | . . . Including a tube sheet |
DIG 433 | ![[Patents]](../gifs/ps.gif) | . . . . Tubes-tubesheet connection |
DIG 434 | ![[Patents]](../gifs/ps.gif) | . . . . . Plural strips forming tubesheet |
DIG 435 | ![[Patents]](../gifs/ps.gif) | . . . Plural bonded conduit end portions (i.e., tubesheet not needed) |
DIG 436 | ![[Patents]](../gifs/ps.gif) | . . . Bent conduit assemblies |
DIG 437 | ![[Patents]](../gifs/ps.gif) | . . . . Coiled |
DIG 438 | ![[Patents]](../gifs/ps.gif) | . . . . . Helical |
DIG 439 | ![[Patents]](../gifs/ps.gif) | . . Serially connected conduit assemblies (i.e., no manifold) |
DIG 440 | ![[Patents]](../gifs/ps.gif) | . . Coiled conduit assemblies |
DIG 441 | ![[Patents]](../gifs/ps.gif) | . . . Helical |
DIG 442 | ![[Patents]](../gifs/ps.gif) | . Conduits |
DIG 443 | ![[Patents]](../gifs/ps.gif) | . . Adjacent conduits with transverse air passages (e.g., radiator core type, etc.) |
DIG 444 | ![[Patents]](../gifs/ps.gif) | . . . Including transversely stacked fin sheets |
DIG 445 | ![[Patents]](../gifs/ps.gif) | . . . Including transverse corrugated fin sheets |
DIG 446 | ![[Patents]](../gifs/ps.gif) | . . . Including intermediate sheet between adjacent tubes forming air fin passages |
DIG 447 | ![[Patents]](../gifs/ps.gif) | . . . . Corrugated sheet |
DIG 448 | ![[Patents]](../gifs/ps.gif) | . . Air conduits (e.g., radiator core type, etc.) |
DIG 449 | ![[Patents]](../gifs/ps.gif) | . . Vertically stacked conduits |
DIG 450 | ![[Patents]](../gifs/ps.gif) | . . . Including integral abutting or interlocking elements |
DIG 451 | ![[Patents]](../gifs/ps.gif) | . . Including bent conduits |
DIG 452 | ![[Patents]](../gifs/ps.gif) | . . Including fins |
DIG 453 | ![[Patents]](../gifs/ps.gif) | . Plural elements arranged to form a fluid passage |
DIG 454 | ![[Patents]](../gifs/ps.gif) | HAVING SIDE-BY-SIDE CONDUITS STRUCTURE OR CONDUIT SECTION |
DIG 455 | ![[Patents]](../gifs/ps.gif) | . Readily detachable tubes having ends with distinct fluid coupling members engaging corresponding coupling members on manifold |
DIG 456 | ![[Patents]](../gifs/ps.gif) | . Readily and independently detachable sections |
DIG 457 | ![[Patents]](../gifs/ps.gif) | . . Individual manifolds for each section |
DIG 458 | ![[Patents]](../gifs/ps.gif) | . Self-contained sections hydraulically connected in series |
DIG 459 | ![[Patents]](../gifs/ps.gif) | . Strips with shaped, interfitted edges form heat exchanger core with plural passages |
DIG 460 | ![[Patents]](../gifs/ps.gif) | . . With spacers interposed between adjacent passages |
DIG 461 | ![[Patents]](../gifs/ps.gif) | . Plate fins formed with tubular projections which join with projections of adjacent plates to form parallel conduits |
DIG 462 | ![[Patents]](../gifs/ps.gif) | . . Tapering, nested projections |
DIG 463 | ![[Patents]](../gifs/ps.gif) | . . . Conduits oblong in cross section |
DIG 464 | ![[Patents]](../gifs/ps.gif) | . Conduits formed by joined pairs of matched plates |
DIG 465 | ![[Patents]](../gifs/ps.gif) | . . Manifold space formed in end portions of plates |
DIG 466 | ![[Patents]](../gifs/ps.gif) | . . . Manifold spaces provided at one end only |
DIG 467 | ![[Patents]](../gifs/ps.gif) | . . With turbulence enhancing pattern embossed on joined plates |
DIG 468 | ![[Patents]](../gifs/ps.gif) | . Core formed by stack tubular members with abutting edges |
DIG 469 | ![[Patents]](../gifs/ps.gif) | . Reinforcing rod or strip extends across parallel fin edges |
DIG 470 | ![[Patents]](../gifs/ps.gif) | . Tensioning member within manifold |
DIG 471 | ![[Patents]](../gifs/ps.gif) | . Plural parallel conduits joined by manifold |
DIG 472 | ![[Patents]](../gifs/ps.gif) | . . U-shaped conduits connected to side-by-side manifolds |
DIG 473 | ![[Patents]](../gifs/ps.gif) | . . With clamping member at joint between header plate and header tank |
DIG 474 | ![[Patents]](../gifs/ps.gif) | . . . With compressible seal at joint |
DIG 475 | ![[Patents]](../gifs/ps.gif) | . . . Header plate and tank of dissimilar materials |
DIG 476 | ![[Patents]](../gifs/ps.gif) | . . Fusion joint (e.g., solder, braze) between tube plate and header tank |
DIG 477 | ![[Patents]](../gifs/ps.gif) | . . Elastic seal element between conduit ends and receiving holes in header plate |
DIG 478 | ![[Patents]](../gifs/ps.gif) | . . Separate means employed for mechanical attachment and hydraulic seal of conduit ends to header plate |
DIG 479 | ![[Patents]](../gifs/ps.gif) | . . Tubes joined to tube plate with adhesive (e.g., glue or braze compound) |
DIG 480 | ![[Patents]](../gifs/ps.gif) | . . Elongated support members extending between spaced manifolds |
DIG 481 | ![[Patents]](../gifs/ps.gif) | . . Partitions in manifold define serial flow pattern for conduits/conduit groups |
DIG 482 | ![[Patents]](../gifs/ps.gif) | . . . Partitions are separate members |
DIG 483 | ![[Patents]](../gifs/ps.gif) | . . Flow deflecting/retarding means in header for even distribution of fluid to plural tubes |
DIG 484 | ![[Patents]](../gifs/ps.gif) | . . . Orifices mounted at conduit ends |
DIG 485 | ![[Patents]](../gifs/ps.gif) | . . Unitary ("one-piece") header structure |
DIG 486 | ![[Patents]](../gifs/ps.gif) | . . Corrugated fins disposed between adjacent conduits |
DIG 487 | ![[Patents]](../gifs/ps.gif) | . . . Louvered |
DIG 488 | ![[Patents]](../gifs/ps.gif) | . . Header is rounded in cross section (e.g., circular, oval) |
DIG 489 | ![[Patents]](../gifs/ps.gif) | . . Two piece header structure |
DIG 490 | ![[Patents]](../gifs/ps.gif) | . . Noncircular tube cross section (oval, triangular, etc.) |
DIG 491 | ![[Patents]](../gifs/ps.gif) | . . Manifolds formed in core-enclosing frame |
DIG 492 | ![[Patents]](../gifs/ps.gif) | . Plural conduits with ends connected to tube plate |
DIG 493 | ![[Patents]](../gifs/ps.gif) | . . Welded or fused joint between conduit end and plate |
DIG 494 | ![[Patents]](../gifs/ps.gif) | . . Conduit end deformed (e.g., expanded) to affix to plate |
DIG 495 | ![[Patents]](../gifs/ps.gif) | . Single unitary conduit structure bent to form flow path with side-by-side sections |
DIG 496 | ![[Patents]](../gifs/ps.gif) | . . Spiral or helical coil |
DIG 497 | ![[Patents]](../gifs/ps.gif) | . . Serpentine flow path with straight side-by-side sections |
DIG 498 | ![[Patents]](../gifs/ps.gif) | . . . Fin assembly extends across side-by-side sections |
DIG 499 | ![[Patents]](../gifs/ps.gif) | . With parallel tubes or tube sections having ends joined to opposed frame members |
DIG 500 | ![[Patents]](../gifs/ps.gif) | . Side-by-side conduits with fins |
DIG 501 | ![[Patents]](../gifs/ps.gif) | . . Plate fins penetrated by plural conduits |
DIG 502 | ![[Patents]](../gifs/ps.gif) | . . . Lanced |
DIG 503 | ![[Patents]](../gifs/ps.gif) | . . . . Angled louvers |
DIG 504 | ![[Patents]](../gifs/ps.gif) | . . . Contoured fin surface |
DIG 505 | ![[Patents]](../gifs/ps.gif) | . . Corrugated strips disposed between adjacent conduits |
DIG 506 | ![[Patents]](../gifs/ps.gif) | . Side-by-side conduits with means (e.g., support grid) holding them in spaced relation |
DIG 507 | ![[Patents]](../gifs/ps.gif) | . Straight side-by-side conduits joined for flow of one fluid |
DIG 508 | ![[Patents]](../gifs/ps.gif) | . . Side-by-side conduits penetrate parallel plate-type fins |
DIG 509 | ![[Patents]](../gifs/ps.gif) | . . Side-by-side conduits lie in common plane |
DIG 510 | ![[Patents]](../gifs/ps.gif) | HAVING HEAT EXCHANGE SURFACE TREATMENT, ADJUNCT OR ENHANCEMENT |
DIG 511 | ![[Patents]](../gifs/ps.gif) | . Polished heat transfer surface |
DIG 512 | ![[Patents]](../gifs/ps.gif) | . Coated heat transfer surface |
DIG 513 | ![[Patents]](../gifs/ps.gif) | . . Corrosion resistant |
DIG 514 | ![[Patents]](../gifs/ps.gif) | . . Hydrophilic/hydrophobic coating |
DIG 515 | ![[Patents]](../gifs/ps.gif) | . Patterned surface (e.g., knurled, grooved) |
DIG 516 | ![[Patents]](../gifs/ps.gif) | . . Subsurface pockets formed |
DIG 517 | ![[Patents]](../gifs/ps.gif) | . Roughened surface |
DIG 518 | ![[Patents]](../gifs/ps.gif) | . Conduit with discrete fin structure |
DIG 519 | ![[Patents]](../gifs/ps.gif) | . . porous or mesh |
DIG 520 | ![[Patents]](../gifs/ps.gif) | . . Internal and external |
DIG 521 | ![[Patents]](../gifs/ps.gif) | . . . Pin fins penetrating conduit wall |
DIG 522 | ![[Patents]](../gifs/ps.gif) | . . Transverse fins spaced along conduit |
DIG 523 | ![[Patents]](../gifs/ps.gif) | . . . Separated by integral flanges engaging conduit exterior |
DIG 524 | ![[Patents]](../gifs/ps.gif) | . . Longitudinally extending |
DIG 525 | ![[Patents]](../gifs/ps.gif) | . . . Helical |
DIG 526 | ![[Patents]](../gifs/ps.gif) | . . . . Spine or loop fins |
DIG 527 | ![[Patents]](../gifs/ps.gif) | . . . Integrally formed |
DIG 528 | ![[Patents]](../gifs/ps.gif) | . . Fin and conduit of diverse materials |
DIG 529 | ![[Patents]](../gifs/ps.gif) | . With structure for promoting turbulence and/or breaking up laminar flow adjacent heat transfer surface |
DIG 530 | ![[Patents]](../gifs/ps.gif) | . . Conduit insert |
DIG 531 | ![[Patents]](../gifs/ps.gif) | . With wicking structure |
DIG 532 | ![[Patents]](../gifs/ps.gif) | HEAT EXCHANGE CONDUIT STRUCTURE |
DIG 533 | ![[Patents]](../gifs/ps.gif) | . Composite of diverse materials |
DIG 534 | ![[Patents]](../gifs/ps.gif) | . . Concentric layers |
DIG 535 | ![[Patents]](../gifs/ps.gif) | . Helically formed |
DIG 536 | ![[Patents]](../gifs/ps.gif) | . Noncircular cross-section |
DIG 537 | ![[Patents]](../gifs/ps.gif) | . . Oblong or elliptical |
DIG 538 | ![[Patents]](../gifs/ps.gif) | . With particular flow connecting structure |
DIG 539 | ![[Patents]](../gifs/ps.gif) | HAVING A HEAT STORAGE MASS |
FOR 100 | | PROCESS (165/1) |
FOR 101 | | . Heating and cooling (165/2) |
FOR 102 | | . . Humidity adjusting (165/3) |
FOR 103 | | TIME OR PROGRAM ACTUATOR (165/12) |
FOR 104 | | AUTOMATIC CONTROL (165/13) |
FOR 105 | | . Heating and cooling (165/14) |
FOR 106 | | . . With cabin pressure control (165/15) |
FOR 107 | | . . With ventilation control (165/16) |
FOR 108 | | . . Defrosting (165/17) |
FOR 109 | | . . With control of heat storage (165/18) |
FOR 110 | | . . With gas and liquid contact fluid flow control (165/19) |
FOR 111 | | . . . By humidity sensor (165/20) |
FOR 112 | | . . With humidity sensor controlling humidity (165/21) |
FOR 113 | | . . Correlation of plural zone controls and central system control (165/22) |
FOR 114 | | . . Responsive to vehicle body motion (165/23) |
FOR 115 | | . . With manual control (165/124) |
FOR 116 | | . . . Manual selector modifies automatic control (165/25) |
FOR 117 | | . . Single sensor controls both heating and cooling (165/26) |
FOR 118 | | . . Selective heating or cooling (165/27) |
FOR 119 | | . . . Room and ambient temperature sensors (165/28) |
FOR 120 | | . . Heat pump with supplemental heat (165/29) |
FOR 121 | | . . Opposed compensating heating and cooling (165/30) |
FOR 122 | | . . Pressure response or control (165/31) |
FOR 123 | | . Temperature or pressure (165/32) |
FOR 124 | | . . With correlated manual actuation (165/33) |
FOR 125 | | . . Branched flow of exchanging fluid (165/34) |
FOR 126 | | . . . By-pass of heat exchanger (165/35) |
FOR 127 | | . . . . Mixture temperature sensing (165/36) |
FOR 128 | | . . . . . With pressure response (165/37) |
FOR 129 | | . . . . Pressure controlled (165/38) |
FOR 130 | | . . Flow of one heat exchanging material controlled by the condition of another (165/37) |
FOR 131 | | . . Flow of heat exchanging material controlled by its own condition (165/40) |