| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 165301000 | Liquid-level responsive or control means | 8 |
| 20090008077 | Cooling apparatus using brine - A cooling apparatus includes a brine circuit through which brine flows, a pump disposed on the brine circuit, and a heat exchanger unit including a heat absorbing member and a heat radiating member. The heat absorbing member is in communication with the brine circuit. The heat absorbing member is capable of conducting heat generated from a cooling object to the brine for cooling the cooling object. The heat radiating member is in communication with the brine circuit and capable of receiving the heat from the brine. The brine circuit is configured such that the brine passes through the heat exchanger unit at a pressure equal to or lower than an atmospheric pressure. | 01-08-2009 |
| 20090044935 | METHOD AND ARRANGEMENT FOR OPTIMIZING HEAT TRANSFER PROPERTIES IN HEAT EXCHANGE VENTILATION SYSTEMS - The present invention relates to a method and arrangement of optimizing the level of anti freeze agent in a heat transfer fluid in a heat exchange system The method comprises determining ( | 02-19-2009 |
| 20120006528 | METHOD OF AND SYSTEM FOR COOLING A SINGULATION PROCESS - A system for cooling at least one singulation saw used to singulate components from a substrate. The system is comprised of a coolant loop having at one or more coolant delivery means, a coolant collection means, one or more recycle tanks for contaminate particles to settle out of the captured coolant, a mixing tank configured after the recycle tanks within the loop to produce and replace lost coolant, and a means to cool the coolant. The system can all so include filters within the loop to remove particles not removed by the settling tank. Further, the system is able to be configured with a holding tank configured to prevent any bubbles from getting to the coolant delivery means. | 01-12-2012 |
| 20140216711 | Scalable, Multi-Vessel Distribution System for Liquid Level Control Within Immersion Cooling Tanks - A fluid level control system includes: a first immersion cooling tank having a first volume of immersion cooling liquid and an inlet/outlet pipe extending from a base wall of the tank by which immersion cooling liquid can flow into and out of the first immersion cooling tank; at least one second volume of cooling liquid held within a liquid containing unit having a corresponding inlet/outlet pipe; and a pipe distribution system that physically connects the second volume of immersion cooling liquid to the first volume of immersion cooling liquid via respective inlet/outlet pipes and which enables fluid equilibrium to be maintained between the first volume of liquid and the second volume of liquid via gravitational equilibrium and/or passive level control such that a first volume level of the first volume of immersion cooling liquid remains substantially equal to a second volume level of the second volume of immersion cooling liquid. | 08-07-2014 |
| 20150316941 | TEMPERATURE CONTROL IN PLASMA PROCESSING APPARATUS USING PULSED HEAT TRANSFER FLUID FLOW - Methods and systems for controlling temperatures in plasma processing chamber via pulsed application of heating power and pulsed application of cooling power. In an embodiment, temperature control is based at least in part on a feedforward control signal derived from a plasma power input into the processing chamber. In further embodiments, fluid levels in each of a hot and cold reservoir coupled to the temperature controlled component are maintained in part by a passive leveling pipe coupling the two reservoirs. In another embodiment, digital heat transfer fluid flow control valves are opened with pulse widths dependent on a heating/cooling duty cycle value and a proportioning cycle having a duration that has been found to provide good temperature control performance. | 11-05-2015 |
| 20160144710 | HEV COOLING SYSTEM AND METHOD OF CONTROLLING THE SAME - A HEV cooling system includes an engine cooling circuit configured to cool an engine by circulation of coolant cooled by an engine heat exchanger using an engine water pump. An engine reservoir tank is configured to temporarily store the coolant cooled by the engine heat exchanger and replenish insufficient coolant. A HEV cooling circuit is configured to cool an inverter and motor by circulation of coolant cooled by an HEV heat exchanger using an HEV water pump. An HEV reservoir tank is configured to temporarily store the coolant cooled by the HEV heat exchanger and replenish insufficient coolant. A connector ( | 05-26-2016 |
| 20160252313 | ACTUATING UNIT FOR A HEAT EXCHANGER, HEAT EXCHANGER, AND A METHOD FOR CONTROLLING A HEAT EXCHANGER | 09-01-2016 |
| 165302000 | Condenser or evaporator | 1 |
| 20150021007 | METHODS AND APPARATUS FOR COOLING FLUID - A fluid cooler, fluid cooler core and method of condensing gas is disclosed. The fluid cooler includes a container for a liquid transfer medium. The container includes first and second hot fluid inlets, first and second cooled liquid outlets, a cooling liquid inlet, and a cooling liquid outlet. A first conduit extends within the container and fluidly couples the first hot fluid inlet to the first cooled liquid outlet. A second conduit extends within the container and fluidly couples the second hot fluid inlet to the second cooled liquid outlet. A third conduit extends within the container and fluidly couples the cooling liquid inlet to the cooling liquid outlet. The first, second, and third conduits are positioned to be at least partially submerged in the liquid transfer medium when the container contains the liquid transfer medium. | 01-22-2015 |
