Class / Patent application number | Description | Number of patent applications / Date published |
062082000 | By utilizing fluid strange to system | 21 |
20090255277 | OPTIMIZED DEFROSTING REGULATION OF PARALLEL ARRANGED FRESH AIR OUTLETS OF AIR CONDITIONERS - An arrangement is provided for de-icing pipeline connections of an aircraft, which are connected to all fresh air outlets of an air conditioner, whose construction includes, but is not limited to the functions of multiple turbines and heat exchangers, having a first pipeline, which is connected to a first turbine, and a second pipeline, which is connected to a second turbine, the two pipelines, which are each connected downstream from the two turbines and to which process air is fed at the turbine outlets, being connected at the pipe ends and being continued using a third pipeline. The arrangement is characterized in that a first hot air source is fed hot fresh air from a bleed air system of the aircraft and is connected at its outlet to a fourth pipeline, into which temperature-reduced fresh air is fed from the hot air source. The fourth pipeline is connected at its pipe end to two further valve-regulated pipelines, of which a fifth or a sixth pipeline is connected to the first or the second pipeline, and through which temperature-reduced fresh air is transported and fed valve-regulated to the first and/or second pipeline. | 10-15-2009 |
20100326096 | CONTROL SYTEM FOR BOTTOM FREEZER REFRIGERATOR WITH ICE MAKER IN UPPER DOOR - A refrigerator includes a main body defining a compartment, the compartment having an access opening and a first wall, a door supported by the main body for selectively closing at least part of the access opening, a sub-compartment on the door, the sub-compartment including a second wall having an opening, a heat exchanger supported by the first wall and positioned so that when the door is closed the heat exchanger is exposed to an interior of the sub-compartment through the opening. The heat exchanger includes a heat exchanging plate. A sealed refrigeration system contains a working medium for cooling the heat exchanger and has one or more segments attached to the heat exchanging plate. A fan is configured to force air over the heat exchanging plate and into the interior of the sub-compartment. A thermistor is coupled to the heat exchanging plate for monitoring a temperature of the heat exchanging plate. A controller is configured to adjust a speed of the fan in dependence of the temperature of the heat-exchanging plate detected by the thermistor. | 12-30-2010 |
20110225995 | System and Method for Air Shockwave Defrosting - A system may include an apparatus for defrosting and/or clearing debris from a refrigeration component using pressurized dry air. The apparatus may include an air compressor that generates pressurized air. The air may be filtered (before or after compressing) to remove moisture and/or other contaminants to thereby generate pressurized dry air. The apparatus may include a reservoir, coupled to the air compressor, for storing the pressurized dry air. The reservoir may be coupled to one or more air distribution manifolds coupled to the reservoir. Each of the one or more air distribution manifolds may be coupled to an air discharge component such as an air pipe or tube. The air discharge component may receive the pressurized air from the air exhaust and may discharge the pressurized air through a plurality of orifices to the refrigeration component thereby defrosting and/or clearing debris from the refrigeration component. | 09-22-2011 |
20120031120 | Defrosting a Freezing Unit and Liquid Purification - A method and system for liquid purification and defrosting a freezing unit harvests energy released as heat from a condenser. Liquid received from a source into a first liquid storage container is heated using heat collected from the condenser using at least one heat conducting rod. A second liquid storage container connected to the first liquid storage container is maintained at a lower temperature than the first liquid storage container. As a first portion of heated liquid is transferred from the first liquid storage container to the second liquid storage container, bacteria in the first portion of heated liquid is denatured as a result of the temperature change, and the liquid is purified. Filters may also be used to improve purification. A second portion of heated liquid is transferred between the first liquid storage container and a freezing unit via at least one heat conducting pipe causing defrosting of the freezing unit. | 02-09-2012 |
20120102986 | REVERSE CYCLE DEFROST METHOD AND APPARATUS - Systems and methods for refrigerating crops and other goods and for defrosting a refrigeration system. A refrigerant is circulated between a condenser and a refrigerator to cool air in the refrigerator. Heat is removed from the refrigerant at the condenser. Periodically the cycle of refrigerant and air can be reversed to melt frost in the refrigerator. Frost can be detected by a sensing mechanism and the refrigerant and air cycles can be reversed in response to detecting the frost. The frost can be removed quickly without removing the goods from the refrigerant. | 05-03-2012 |
20120180505 | HEAT PUMP SYSTEM HAVING A PRE-PROCESSING MODULE - A heat pump system is operable in winter mode and/or summer mode, and may be selectively operated in a defrost mode or cycle. The system includes an energy recovery module that receives and conditions air in a regeneration air channel. A pre-processing module is positioned downstream of the energy recovery module. The pre-processing module receives and heats air from the energy recovery module. A regeneration air heat exchanger is positioned downstream of the pre-processing module. The regeneration air heat exchanger receives and conditions air from the pre-processing module. The pre-processing module heats the air from the energy recovery module to increase efficiency of the regeneration air heat exchanger. During the defrost mode, a loop of regeneration air may be recirculated between the supply air channel and the regeneration air channel in order to defrost the regeneration air heat exchanger. | 07-19-2012 |
20120279238 | METHOD FOR CONTROLLING FROST ON A HEAT TRANSFER DEVICE - A method for controlling frost on a heat transfer device includes the steps of providing an air flow device adapted to provide a stream of air at a high flow rate, and using the air flow device to subject a heat transfer device to the stream of air during frosting times. The stream of air interacts with the heat transfer device to remove water droplets disposed on the heat transfer device, thereby preventing frost from accumulating on the heat transfer device. | 11-08-2012 |
20130061615 | CONDENSATE-FREE OUTDOOR AIR COOLING UNIT - A highly efficient condensate-free cooling unit functionally based on vapor-compression refrigeration cycle has been described. The condensate collected from the evaporator of the cooling unit is routed through a sub-cooling heat exchanger where it exchanges heat with the primary heat exchange medium emerging through the condenser of the cooling unit, thus, sub-cooling the primary heat exchange medium to a lower temperature before it enters the expansion valve. Emerging from the sub-cooling heat exchanger, the condensate flows through a condensate outlet pipe into multiple spray nozzles disposed over the condensate outlet pipe. The spray nozzles sprinkle the condensate over the hot air blown into the condenser to reduce its temperature. The cooling unit has a substantially higher coefficient of performance compared to the conventional cooling units utilizing vapor-compression refrigeration cycle, and eliminates the problems of condensate removal persistent in the art. | 03-14-2013 |
20130098077 | HIGH PEFORMANCE REFRIGERATOR HAVING SACRIFICAL EVAPORATOR - A high performance refrigerator includes a cabinet with a refrigerated interior and a refrigeration fluid circuit having first and second evaporators located within the cabinet and separated from the refrigerated interior by an insulating cover. The refrigerator also includes a first damper controlling flow from the refrigerated interior into the first evaporator, a second damper controlling flow from the first evaporator to the second evaporator, and a third damper controlling flow from the second evaporator to the refrigerated interior. The first evaporator operates with refrigerant at a lower temperature than the second evaporator such that substantially all frost formed on the first and second evaporators is collected on a first evaporator coil in the first evaporator. Thus, the first evaporator acts as a sacrificial evaporator that undergoes defrost more frequently than the second evaporator. | 04-25-2013 |
20130098078 | HIGH PERFORMANCE REFRIGERATOR HAVING PASSIVE SUBLIMATION DEFROST OF EVAPORATOR - A high performance refrigerator or freezer includes a cabinet with a refrigerated interior, a first evaporator cover separating a first evaporator compartment within the cabinet from the refrigerated interior, and a refrigeration fluid circuit having a first evaporator located within the first evaporator compartment, a second evaporator, and a three-way valve enabling selective communication of refrigerant to one or both of the evaporators. The second evaporator includes an air diffuser that receives chilled air from the first evaporator compartment and delivers the chilled air into the refrigerated interior. During normal operation, the three-way valve only directs refrigerant into the first evaporator such that the first evaporator cools the cabinet and the chilled air from the first evaporator passively defrosts the second evaporator by sublimation. | 04-25-2013 |
20140090406 | REFRIGERATING AND AIR-CONDITIONING APPARATUS - A refrigerating and air-conditioning apparatus includes multiple refrigeration cycles each including a compressor, a four-way valve, an indoor heat exchanger, a pressure reducing device, and an outdoor heat exchanger which are connected by a pipe, each refrigeration cycle being configured to be capable of performing a cooling operation and a heating operation, an outdoor fan configured to send air for heat exchange with the outdoor heat exchangers of the refrigeration cycles, multiple indoor fans arranged corresponding to the respective indoor heat exchangers of the refrigeration cycles, and a controller configured to defrost the outdoor heat exchanger of the at least one refrigeration cycle, control a rotation speed of the indoor fan corresponding to the refrigeration cycle performing the defrosting operation such that a temperature of air mixed by air-sending through the indoor fans reaches a predetermined temperature. | 04-03-2014 |
20140109601 | LOW ENERGY EVAPORATOR DEFROST - A refrigerator is provided that includes a low energy defrost system and method for melting frost formed on an evaporator of a cooling system for the refrigerator. The low energy defrost system includes using air from the refrigerator compartment or external air adjacent the refrigerator to be directed to the evaporator and passed adjacent the evaporator coils to melt any frost formed thereon. As the air is above freezing temperature, it will melt any frost formed on the coils without the need of use an electrical heater. Re-cooled air from the melted frost may then be directed back into the refrigerator compartment to be used to aid in cooling the refrigerator compartment or keeping the refrigerator compartment at the programmed or predetermined temperature. | 04-24-2014 |
20140216079 | METHOD FOR DEICING AND CLEANING OF FANS - The invention pertains to a method for removing ice layers and/or snow layers and/or dirt layers from the rotor blades (B) of axial fans in cooling installations for refrigerating and/or freezing products. At least one cleaning substance jet (S) is directed toward the rotor blades (B) of an axial fan within certain time intervals in such a way that ice layers and/or snow layers and/or dirt layers are at least separated from the surfaces of the rotor blades (B) and transported away, wherein the rotor blades (B) rotate with nominal speed while cleaning jets (S) act upon their surfaces. | 08-07-2014 |
20140260364 | SPECIALTY COOLING FEATURES USING EXTRUDED EVAPORATOR - An appliance includes a co-extruded evaporator in thermal communication with a compartment. The co-extruded evaporator includes main and support channels in thermal communication that share a common wall | 09-18-2014 |
20140345306 | Anti-Icing System and Method for a Refrigeration Cooling Apparatus - An anti-icing system for use with a refrigerator that defines an interior area includes a cooling apparatus mounted in the interior area of the refrigerator and having a condenser portion and a plurality of spaced apart fins operably coupled to the condenser portion and extending away therefrom. The anti-icing system includes a first fan situated in a fan housing having opposed front and rear walls, the front wall defining an aperture. The first fan is situated in the fan housing so as to transmit air through the aperture when energized. The heat exchange unit is configured to be mounted in the refrigerator interior area such that the plurality of evaporator fins extends outwardly. The fan housing is configured to be mounted in the refrigerator interior area perpendicular to the plurality of evaporator fins such that air is transmitted across the fins to reduce or eliminate icing. | 11-27-2014 |
20150027145 | COOLING STORAGE EVAPORATOR SYSTEM FOR VEHICLE CLIMATE CONTROL - A cooling storage evaporator system employs a pivoting frost control door upstream from an evaporator that, when closed, inhibits air from passing through a lower portion of the evaporator. Closing the frost control door results in condensed water freezing on a lower portion of the evaporator when the AC is ON. When a vehicle engine is turned OFF when the vehicle stops in an idle condition, thereby turning the compressor OFF, the frost control door opens so that air passes over the evaporator, including the frozen portion thereof, melting the frozen condensed water to maintain the cool outlet air temperature at the vent. | 01-29-2015 |
20150033774 | Systems And Methods For Potable Water Production - Systems and methods are disclosed for water collection from atmospheric moisture in large quantities in uncontrolled outdoor environments where the temperature may be cold and humidity levels low. To extract water from air when the dew point is low, a heat exchanger cools to a point where water vapor is deposited on its surface as ice. The heat exchanger then cycles through a heating phase to melt the ice and generate liquid water. The accumulation of frost is advantageous. Frost accumulation enables water collection when the dew point is low. Disclosed variations enhance efficiency and environmental tolerance. | 02-05-2015 |
20150082817 | LOW TEMPERATURE COOLING AND DEHUMIDIFICATION DEVICE WITH REVERSING AIRFLOW DEFROST FOR DEHUMIDIFICATION AND WATER GENERATION APPLICATIONS WHERE COOLING COIL INLET AIR IS ABOVE FREEZING - A low temperature cooling and dehumidification system uses a reverse airflow arrangement to defrost a frosted cooling coil while not interrupting operation. Automatic air dampers are used to reverse the airflow at the proper time to initiate defrost of that section of frosted cooling coil. This system is useful for low temperature cooling and dehumidification in situations where the inlet air is above freezing, however exiting air below freezing can be supplied if desired. It is advantageous for operation if the coolant flow and temperature internal to the cooling coil are regulated to create the conditions for frost formation to begin closer to the air leaving side of the active cooling coil. The dehumidified generated condensate can be collected and used as grey water and/or potable water. | 03-26-2015 |
20150082818 | SYSTEM AND METHOD OF FREEZE PROTECTION OF A HEAT EXCHANGER IN AN HVAC SYSTEM - A system and method of heat exchanger freeze protection for an HVAC system by operating an indoor unit assembly and an outdoor unit assembly in a cooling mode and operating a fan at an initial airflow, operating a temperature sensor to measure a temperature value of a heat exchanger, at the expiration of a first predetermined time period, determining whether the temperature value is less than or equal to a first temperature preset value, determining whether a current airflow multiplier is equal to a maximum airflow multiplier limit, increasing the current airflow by an airflow offset multiplier if the current airflow multiplier is less than or equal to the maximum airflow multiplier limit and the temperature value is less than or equal to the first temperature preset, and operating the fan at an increased airflow to move more air across the heat exchanger. | 03-26-2015 |
20150345428 | CRYOGENIC CIRCUIT CONDITIONING SYSTEM - The subject of the invention is a device for the in-flight conditioning of equipment of cryogenic circuits of an aircraft, which device includes means for bleeding air from outside the aircraft, means for extracting nitrogen from this air using a nitrogen separator of the OBIGGS type and means for distributing this nitrogen around the equipment. The device notably includes means for distributing nitrogen around the various pieces of equipment of cryogenic circuits using a system of piping provided with calibrated orifices. | 12-03-2015 |
20160200441 | COOLING SYSTEM HAVING A WATER SEPARATOR, AND METHOD FOR OPERATING A COOLING SYSTEM | 07-14-2016 |