Entries |
Document | Title | Date |
20080271468 | PORTABLE AIR CONDITIONER - A portable air conditioner ( | 11-06-2008 |
20090044547 | Method and apparatus for maintaining a uniform temperature in a refrigeration system - A refrigeration apparatus includes an air chiller, a storage enclosure defining a compartment, a duct system, and a valve system. The air chiller blows chilled air into the duct system. The compartment has a first and a second opening, each of which is coupled to the duct system. The valve system has valves that can be moved to route the chilled air so that it enters into the first opening and exits the second opening, or vice versa. In one implementation, the first opening is at the top of the compartment and the second opening is at the bottom of the compartment, and the valve system is controlled by a control circuit that periodically switches the valves (via an actuator) to change the direction of the chilled air. This effectively maintains a relatively uniform temperature throughout the compartment. | 02-19-2009 |
20090056347 | AIR CONDITIONING AND ENERGY RECOVERY SYSTEM AND METHOD OF OPERATION | 03-05-2009 |
20090193821 | PRE-RIDING AIR CONDITIONING METHOD AND AIR CONDITIONER - A pre-riding air conditioning method in which if an intention of a passenger to ride in a vehicle is detected, an inside air fan ( | 08-06-2009 |
20090211272 | HEAT DISSIPATION SYSTEM - A system for removing heat from heat load equipment including a re-circulating air handling unit for establishing an air curtain that flows up from and around the heat load equipment and one or more roof-mounted heat stratification housings disposed over the heat load equipment for receiving heat from the equipment. The heat generated from the equipment travels upwardly inside of and propelled by the air curtain. The heat stratification housing includes a plurality of heat transfer plates that extend between interior and exterior areas thereof. Water nozzles direct a spray on the heat transfer plates. | 08-27-2009 |
20090211273 | Aircraft air-conditioning unit and method for operating an aircraft air-conditioning unit - An aircraft air-conditioning unit ( | 08-27-2009 |
20090301110 | Air-Conditioning System For Aircraft - Air-conditioning system ( | 12-10-2009 |
20090320505 | METHOD FOR COOL DRYING - Method for cool drying gas containing water vapour, whereby this gas is led through the secondary part of a heat exchanger ( | 12-31-2009 |
20100000238 | HEATING, VENTILATION, AIR CONDITIONING AND REFRIGERATION SYSTEM WITH MULTI-ZONE MONITORING AND DIAGNOSTICS - A multi-zone HVAC&R system has its control programmed to provide diagnostic testing of air handling components and refrigerant components associated with each climate controlled zone in sequence. The control changes the original position of the corresponding component and a resultant change in a relevant operational parameter is sensed. If the actual change is outside of the tolerance band associated with the expected change, then the determination is made that the component under consideration is malfunctioning. The periodicity of a diagnostic procedure for a particular component is typically defined by its criticality and reliability level. If the change in the corresponding operation parameter is recorded and stored in the database, the component degradation can be observed over time and a prognostic prediction can be made when a particular component requires preventive maintenance or replacement. | 01-07-2010 |
20100000239 | PULSE WIDTH MODULATION CONTROL FOR HEAT PUMP FAN TO ELIMINATE COLD BLOW - A heat pump refrigerant system is provided with a pulse width modulation control for a fan moving air over the indoor heat exchanger. When it is determined that there is insufficient heat rejected by the indoor heat exchanger to heat the volume of air being delivered by the fan into the conditioned environment, the volume of air supplied to the conditioned environment is reduced by utilizing one of pulse width modulation techniques to cycle the indoor fan motor to reduce the average volume of supplied air. Therefore, a precise control over the temperature of air delivered to the conditioned space is achieved, temperature of the delivered air is increased to the target value, and so-called “cold blow” conditions are avoided. | 01-07-2010 |
20100018227 | Refrigerated Case - A refrigerated case ( | 01-28-2010 |
20100024446 | REFRIGERATED MERCHANDISER WITH DUAL AIR CURTAIN - A refrigerated merchandiser including a case defining a product display area, and a shelf supported by the case within the product display area. The case includes a base that is disposed below the product display area and a canopy that is disposed substantially above the product display area. The shelf includes an air discharge duct that is configured to direct a first air curtain generally downward from the shelf into the product display area toward the base, and an air return duct that is configured to receive at least a portion of a second air curtain discharged into the product display area from above the shelf. | 02-04-2010 |
20100031676 | AIR-CONDITIONING UNIT AND METHOD - The invention relates to an air-conditioning unit ( | 02-11-2010 |
20100050665 | METHOD AND APPARATUS FOR MAINTAINING A UNIFORM TEMPERATURE IN A REFRIGERATION SYSTEM - A refrigeration apparatus includes an air chiller including a fan, a storage enclosure defining a compartment, and a duct system. The air chiller blows chilled air into the duct system. The compartment has first and second openings, each of which is coupled to the duct system. Chilled air enters the first opening and exits the second opening, and vice versa. In one implementation, the first opening is at the top of the compartment and the second opening is at the bottom of the compartment. A control circuit may periodically cause the fan to change the direction of the chilled air flow. This effectively maintains a relatively uniform temperature throughout the compartment. | 03-04-2010 |
20100115972 | REFRIGERATOR AND CONTROL METHOD OF THE SAME - A refrigerator that is capable of achieving smooth flow of cool air therein and improving cooling efficiency of a cooled evaporator ( | 05-13-2010 |
20100132383 | METHOD OF DISPERSING AIR, JETS FROM AIR CONDITIONING SYSTEMS AND MIXING THEM WITH THE AMBIENT AIR OF AN ENCLOSURE FOR BETTER COMFORT AND APPARATUS TO CREATE THE JETS - The invention relates to a method and equipment for dispersing the air flowing out of air conditioning systems and mixing it with the ambient air of the enclosure to be conditioned. The quick mixing of the conditioned air jets will create better comfortable feeling of people in front of the conditioned air outlet. | 06-03-2010 |
20100139297 | AIR CYCLE REFRIGERATION CAPACITY CONTROL SYSTEM - The present invention describes a method and apparatus for controlling the operating pressure of a Reverse Brayton type refrigeration device | 06-10-2010 |
20100186431 | APPARATUS FOR SUPERCOOLING, AND METHOD OF OPERATING THE SAME - The present invention discloses an apparatus for supercooling and a method of operating the same which can solve supercooling release of a supercooled space and prevent external exposure of energy such as an electric field. The apparatus for supercooling includes a space cooled by cool air, for maintaining an inside object in a supercooled state by supply of energy preventing the object from being converted into a solid phase, a sensing unit for sensing supercooling release of the space or the object, and a heater engaged with the sensing unit, for applying heat to the space or the object. | 07-29-2010 |
20100192600 | AIR COOLED DISPLAY CASE SHELF - A refrigerated display case is provided that includes a display chamber for displaying product. The display chamber includes a product tray for supporting the product. A cooling chamber is arranged beneath the product and is in communication with a surface of the product tray. The cooling chamber is sealed from the display chamber, in one example, and includes a cooling coil. A fan is in communication with the cooling chamber and cooling coil. The fan circulates a cooling flow through the cooling coil. The cooling flow moves across the surface and absorbs heat from the product tray by convection. The cooled product tray removes heat from the product by conduction. | 08-05-2010 |
20100192601 | PORTABLE AIR CONDITIONER - A portable air conditioner ( | 08-05-2010 |
20100236262 | METHOD AND APPARATUS FOR IMPROVING DEHUMIDIFICATION - Comfort temperature and humidity levels in a conditioned space are controlled by cycling the speed of an evaporator fan motor in such a manner that, during time periods when higher sensible capacity is desired, the time in which the fan motor operates at a higher speed is increased, and during time periods when a higher latent capacity is desired, the time in which the fan motor operates at a lower speed is increased. The fan motor may be a single speed motor that is switched between on and off positions, or it may be a multiple speed motor that is cycled between a higher speed and a lower speed. | 09-23-2010 |
20100242506 | EVAPORATOR FAN MOTOR CONTROL IN A REFRIGERATED MERCHANDISER - A refrigeration apparatus having an evaporator fan motor control includes an evaporator to remove heat energy from the air in a cooled storage space. The evaporator transfers the heat energy to a refrigerant. At least one evaporator fan moves air from the cooled storage space across the evaporator to improve the transfer of heat energy into the refrigerant. The one or more evaporator fans have an energy consumption and generate a waste heat energy. A refrigeration control unit at least controls the operation of the one or more evaporator fans. During an off mode, the one or more evaporator fans are operated in a reduced energy consumption mode to reduce the energy consumption of the one or more evaporator fans and to reduce the waste heat while still defrosting the evaporator in the off mode. | 09-30-2010 |
20100257877 | REFRIGERATOR RELATED TECHNOLOGY - A refrigerator and its operation method are disclosed. Cool air ducts guide cool air from a freezing compartment to an ice compartment that is positioned at a refrigerating compartment door. At least a portion of the cool air ducts are located at a barrier that separates the freezing compartment and the refrigerating compartment. | 10-14-2010 |
20100263391 | Control Device for HVAC Systems with Inlet and Outlet Flow Control Devices - A process for controlling operation of a heating, ventilation and air conditioning system broadly comprises providing a heating, ventilation and air conditioning system having an evaporator, a condenser, a compressor having an inlet and an outlet, and at least one flow control device; measuring a performance parameter of the heating, ventilation and air conditioning system; determining a performance parameter measurement of the flow indicative of onset of surge; determining a surge line of the heating, ventilation and air conditioning system based upon the performance parameter measurement; and independently controlling the at least one flow control device based upon the performance parameter to mitigate an onset of the surge. | 10-21-2010 |
20100269520 | AIR-CONDITIONING WITH DEHUMIDIFICATION - One embodiment comprises an apparatus with an evaporative unit for a refrigerant having a flow direction opposing the airflow direction and an adjustable airflow rate to utilize to produce both cold/dehumidified exit air and warmed exit refrigerant for high efficiency and to maintain an airflow sufficient to avoid freeze-up of evaporative unit or freeze-up to an extent that blocks the airflow. This may produce low humidity even when the room thermostat is set warm (e.g. 85F) and 5%-30% lower A/C bills. Other embodiments comprise systems and methods related to the adjustable airflow. A further embodiment comprises a controller to adjust the humidity in an air-conditioned space to produce air, which is both temperature and humidity controlled. | 10-28-2010 |
20100281892 | COMPARTMENT COOLING LOSS IDENTIFICATION FOR EFFICIENT SYSTEM OPERATION - A galley cooling system comprises a plurality of galley cooling units each to be associated with separate galleys. A sensor senses a condition within each of the galleys. A control determines whether a sensed condition is indicative of efficient operation of a particular galley cooling unit, and the control is operable to decrease cooling capacity delivered to a galley cooling unit which is experiencing inefficient operation. An aircraft galley system incorporating the above cooling unit, and a method of operating a galley cooling unit are also disclosed and claimed. | 11-11-2010 |
20100307174 | Method and apparatus for controlling certain refrigeration system evaporator fan motors - A method and device for controlling certain two-speed ECMs (Electronically Commutated Motors) used in refrigeration evaporator coils. Said method and device monitors and responds to the status of the cooling system, causing the ECMs to operate at high speed when the cooling system is actively cooling, and at low speed when the cooling system is idle. | 12-09-2010 |
20110005245 | METHODS AND APPARATUSES FOR OPERATING HEAT PUMPS IN HOT WATER SYSTEMS - A method for operating a heat pump ( | 01-13-2011 |
20110011106 | REFRIGERATOR - A refrigerator having a refrigerator body including a first cooling chamber and a second cooling chamber, a barrier wall located between the first cooling chamber and the second cooling chamber, an evaporator configured to provide cooling air, a first cooling fan configured to provide cooling air of the evaporator to the first cooling chamber, and a second cooling fan configured to provide cooling air of the evaporator to the second cooling chamber is provided. A method of providing cooling air flow in a refrigerator is also provided. | 01-20-2011 |
20110016893 | Redundant Cooling Method and System - A method apparatus and system for implementing a redundant cooling system is disclosed. The system and method include apparatus for providing a plurality of variable refrigerant flow air cooling units, wherein the number of air cooling units is at least one more than required to meet a selected maximum cooling load when operating the air cooling units at up to a maximum cooling capacity; coupling the plurality of variable refrigerant flow air cooling units in thermal communication with the air in a conditioned space; determining a select optimum operating condition for each of the plurality of variable refrigerant flow air cooling units which will result in about a lowest overall energy consumption for the redundant cooling system, while maintaining an average temperature of the air in the conditioned space at a required setpoint; and operating said plurality of air cooling units at about the select optimum operating conditions for each of the air cooling units. | 01-27-2011 |
20110030396 | HVAC Condenser Assemblies Having Controllable Input Voltages - Assemblies for HVAC systems and methods of operating HVAC systems are disclosed, including a method of operating an HVAC system having a condenser motor operatively coupled to a fan and a controllable bus voltage for powering the condenser motor. The method includes increasing the controllable bus voltage from a first voltage to a second voltage to increase a speed of the condenser motor. | 02-10-2011 |
20110041525 | CONTROL METHOD OF REFRIGERATOR - The present invention relates to a control method of a refrigerator which operates a cooling cycle including two storage compartments, a compressor, a condenser, a valve, fans, and evaporators for cooling the respective storage compartments, with one of the fans ( | 02-24-2011 |
20110100033 | AIR CONTROL MODULE - A damper blade is moved within an air control module connected to the discharge of a high-velocity blower, thereby modulating the electric power consumption of the blower motor. | 05-05-2011 |
20110100034 | BALANCED FLOW AIR CONDITIONING SYSTEM - An air conditioning system | 05-05-2011 |
20110107775 | Parallel Condensing Unit Control System And Method - A system comprises a condenser for a refrigeration system and a control module. The condenser has a plurality of variable speed condenser fans. The control module controls the plurality of variable speed condenser fans. The control module increases condenser fan operation by activating a deactivated variable speed condenser fan at a first fan speed when at least one variable speed condenser fan of the plurality is deactivated and by increasing a fan speed of an activated variable speed condenser fan to a second fan speed when each variable speed condenser fan of the plurality is activated and operating at the first fan speed. The second fan speed is faster than the first fan speed. | 05-12-2011 |
20110120155 | Room Air Conditioner And/Or Heater - A room air conditioner and/or heat pump is shown having a compressor, indoor coil, accumulator, expansion device and reversing valve for changing between a cooling cycle and a heating cycle. Intake louvers direct return air over the entire indoor coil for maximum heat transfer. Discharge louvers are curved upward to prevent short cycling while still being totally adjustable, up and down, right and left. Adjustment posts are anchored to a clip and are adjustable for right or left discharge of air and up or down discharge. Single handles control both the right or left discharge through a rear set of louvers and up or down discharge through a front set of louvers. A no circulation area prevents short cycling and curved edges prevent turbulence in air flow through louvers. | 05-26-2011 |
20110120156 | REFRIGERATION SYSTEM WITH PARALLEL EVAPORATORS AND VARIABLE SPEED COMPRESSOR - A refrigeration system for controlling airflow around an air-cooled heat generating device having a plurality of components includes a refrigerant line split into second refrigerant lines, which are arranged in a parallel configuration with respect to each other. Evaporators are positioned along the second refrigerant lines and in the path of airflow supplied into the components or airflow exhausted from the components. The refrigeration system further includes a variable speed compressor and a controller for controlling the speed of the variable speed compressor. Furthermore, the refrigeration system includes a temperature sensor configured to transmit signals related to a detected temperature to the controller, and the controller is configured to vary the speed of the variable speed compressor based upon the detected temperature. | 05-26-2011 |
20110146307 | CONDENSER VENTILATION CONTROL - A method controls operation of one or more ventilation fans of an air-cooled condenser for condensing exhaust steam from a steam turbine of an electric power plant. The steam turbine powers an electric power generator. The method includes the following steps: An ambient temperature is acquired and a parameter indicative of the power output of the generator is measured. A fan operation state is determined based on the acquired ambient temperature and the measured parameter. The fan is operated in accordance with the determined fan operation state. | 06-23-2011 |
20110162393 | VARIABLE POSITION AIR DAMPER FOR A REFRIGERATOR - A refrigerator, including a cabinet having top, bottom, rear and opposing side walls that collectively define a freezer compartment and a fresh food compartment, employs a cooling system and an air plenum to deliver a cooling air flow into the freezer and fresh food compartments. The air plenum includes a variable position air damper having a first, substantially straight portion and a second arcuate portion that forms an air scoop. The air damper is slidably mounted within the air plenum between first and second positions. The variable position air damper is selectively arranged in the first position to efficiently deliver a volume of the cooling air flow into the freezer compartment, the second position to deliver the cooling airflow into the fresh food compartment or in an infinite number of intermediate positions to deliver the cooling airflow into both compartments. | 07-07-2011 |
20110167845 | COOLER AND DISPLAY DEVICE HAVING THE SAME - A cooler and a display device including the cooler. The cooler includes: a housing; an air blowing unit disposed inside the housing and sucking external air and blowing the external air in the housing, wherein the air blowing unit includes a plurality of groups each including two air blowers; a guide vane disposed above the air blowing unit and to guide air flowed out from the air blowing unit to flow in different directions; and a plurality of auxiliary guide vanes disposed between the air blowing unit and the guide vane, and each disposed in each of the groups each including two air blowers, so as to guide air flowing below the air blowing unit to flow toward the guide vane. | 07-14-2011 |
20110173999 | CONTROL OF A CONDITIONED AIR SUPPLY SYSTEM - An air supply system and a method for controlling operation of an air supply system for supplying a conditioned air flow at a setpoint air temperature to a climate controlled space are disclosed. | 07-21-2011 |
20110179813 | EVAPORATIVE COOLER WITH CENTRIFUGAL FAN - Evaporative coolers are disclosed. An evaporative cooler includes a cooler housing, a centrifugal fan, and a motor. The cooler housing defines an interior region, a single air inlet, and an air outlet. The single air inlet is positioned to permit air flow into the interior region generally along an inlet axis. The air outlet is positioned to permit air flow from the interior region generally along an outlet axis. The inlet axis and outlet axis are angled with respect to one another. The centrifugal fan is mounted within the interior region of the cooler housing. The centrifugal fan is oriented to rotate about a vertical axis that is substantially orthogonal to the inlet and outlet axes. The motor is mounted within the interior region of the cooler housing and is coupled to the centrifugal fan. The motor is configured to rotate the centrifugal fan about the vertical axis. | 07-28-2011 |
20110185750 | AIR CONDITIONING SYSTEM - A supplementary air conditioning system includes an indoor heat exchanger and an outdoor heat exchanger. The indoor heat exchanger is fanless and includes indoor tubes installed so as to be inclined to a ceiling of a room. The indoor tubes make diagonal contact with a high-temperature air zone in an upper part of the room and refrigerant inside the indoor tubes is heated by the air zone so as to boil and vaporize and air in the air zone flows down through the indoor heat exchanger. The external heat exchanger includes outdoor tubes installed outside at a higher position than the indoor tubes and are connected to the indoor tubes via connecting pipes with no compressor therebetween. The outdoor tubes condense and liquefy the refrigerant boiled and vaporized in the indoor tubes and return the refrigerant to the indoor tubes. | 08-04-2011 |
20110197601 | CHILLER WITH SETPOINT ADJUSTMENT - A chiller system includes a compressor operable at a compressor speed between a first speed and a second speed to deliver a flow of compressed fluid to a manifold at a compressor pressure and a condenser in fluid communication with the manifold to receive the compressed fluid. A condenser fan is operable at a fan speed between a minimum fan speed and a maximum fan speed to direct a cooling flow to the condenser to cool the compressed fluid and an evaporator is positioned to receive the flow of compressed fluid and operable to cool a second fluid. A controller is operable at least partially in response to a measured temperature of the second fluid and a measured temperature of the cooling flow to determine a desired pressure and to vary the compressor speed and the fan speed such that the compressor pressure equals the desired pressure. | 08-18-2011 |
20110252817 | AIR FLOW SYSTEM FOR APPLIANCES - A refrigerator includes a body defining a refrigerated compartment and an air duct, and an airflow system configured to circulate air between the refrigerated compartment and the air duct. The air flow system includes a fan configured to move air between the refrigerated compartment and the air duct, an evaporator configured to cool air passing through the air duct, and an air diverter assembly. The air diverter assembly includes a diverter provided at least partially within the air duct and configured to divert at least a portion of the air within the air duct into the refrigerated compartment, and a baffle provided at least partially within the refrigerated compartment and configured to direct air upward within the refrigerated compartment. | 10-20-2011 |
20110265500 | METHOD AND APPARATUS TO CONTROL DISCHARGE COOLING IN A REFRIGERATION SYSTEM - A method and apparatus for operating a discharge cooling cycle in a refrigeration system. The method includes determining a first operating condition of the refrigeration system. The method also includes, based on the determination of the operating condition, activating an evaporator fan for a first predetermined period of time, deactivating the evaporator fan for a second predetermined period of time, and repeating the activating and deactivating until a second operating condition is detected. | 11-03-2011 |
20110277489 | REFRIGERATED CONTAINER - A cold tray for a container may have an interior. The cold tray may include a cold tray housing mountable within the container interior. A refrigerant may be mounted to the cold tray housing. An air flow source may be fluidly connectable to the cold tray housing and may draw air from the container interior into the cold tray housing such that the air passes over the refrigerant and is discharged back into the container interior. | 11-17-2011 |
20110277490 | Method and System for Improved-Efficiency Air-Conditioning - The amount of supply air used by an HVAC system, and hence the amount of energy used for heating and cooling, while maintaining desirable air quality and composition, is reduced by removing unwanted gases, such as carbon dioxide, using scrubbers or other devices that separate these gases from the circulating air. Optionally, the air can be further improved with injection of concentrated oxygen. While in a normal HVAC system frequent replacement of the building air is performed, scrubbing of CO | 11-17-2011 |
20110283719 | TEMPERATURE DISTRIBUTION IMPROVEMENT IN REFRIGERATED CONTAINER - The fan of a refrigeration machine operatively connected to a container box is operated in one direction during normal operation and is periodically operated in the opposite direction in order to reverse the direction of airflow to and from the container box so as to thereby promote a more uniform temperature distribution within the container box. A door is automatically closed when operating in the reverse direction so as to accelerate the airflow speed into the container box. | 11-24-2011 |
20110296856 | CONDENSING UNIT DESUPERHEATER - A condensing unit has a fan selectively operable to draw air through the condensing unit along an airflow path, a first row of condenser tubes disposed along the airflow path, and a second row of desuperheater tubes disposed along the airflow path downstream relative to the first row of condenser tubes. A condensing unit has an airflow path, a desuperheater heat exchanger disposed along the airflow path, and a condenser heat exchanger disposed along the airflow path. A method of desuperheating a refrigerant includes causing air having a first air temperature to encounter a condenser tube comprising refrigerant having a first refrigerant temperature, raising the temperature of the air to a second air temperature, and causing the air having the second air temperature to encounter a desuperheater tube comprising refrigerant having a second refrigerant temperature higher than the first refrigerant temperature. | 12-08-2011 |
20110296857 | METHOD FOR CONTROLLING AIR CONDITIONER - Provided is a method for controlling an air conditioner. The air conditioner includes an air-conditioning unit having a plurality of components constituting a heat exchange cycle, a location detecting sensor detecting a location of a learner in an indoor space, and a control unit controlling the air-conditioning unit. The control unit controls the air-conditioning unit such that the air-conditioning unit repeatedly generates a direct or indirection wind directing toward the learner detected by the location detecting sensor by at least one time as time has elapsed. | 12-08-2011 |
20110302938 | CONTROL METHOD FOR REFRIGERATOR - The present invention provides a control method for a refrigerator that can acquire a pump-down effect without performing an additional pump-down process and furthermore, efficiently utilize residual cool air remaining in a freezer evaporator. | 12-15-2011 |
20110302939 | COOLING SYSTEM WITH INCREASED EFFICIENCY - A cooling system is disclosed. The cooling system may have an evaporator, an evaporator fan, a condenser, and at least one compressor. The compressor may be either a single speed or a variable speed compressor. In addition, the system can use a mechanical or electrical pulsed operation refrigerant flow control valve for controlling refrigerant flow to the evaporator. | 12-15-2011 |
20120000218 | CONTACTOR FOR AIR CONDITIONING UNIT - A contactor for air conditioning unit includes a first magnetic coil, having a first set of contacts for the compressor; a second magnetic coil, having a second set of contacts for the fan motor; and a time delay device connected in series with either the first magnetic coil or the second magnetic coil. The contactor provides for independent control of the compressor and the fan motor. During the time period when the fan continues running and the compressor is switched off, the device equalizes the pressure difference between different portions of the air conditioning unit. | 01-05-2012 |
20120000219 | Refrigerator with temperature control - A refrigerator having a main body including a refrigerating compartment, a cool air duct supplying cool air to the refrigerating compartment, and a sub storage compartment provided in the main body independently maintaining a temperature thereof with respect to the refrigerating compartment and being indirectly cooled or indirectly heated by radiation. | 01-05-2012 |
20120017611 | LOAD MANAGEMENT AWARE FAN CONTROL - A fan-control device for overriding normal operation of a circulation fan delivering conditioned air through ductwork in an unconditioned space. The fan-control device includes a detection circuit and a fan relay. The detection circuit is configured to detect a cooling system control voltage and a cooling system control current and to output a fan control override signal when the cooling system control voltage is detected and the cooling system control current is absent. | 01-26-2012 |
20120017612 | SYSTEM TO CONTROL EXTERNAL CONDENSATION ON A REFRIGERATOR - A cooling system for an appliance includes an evaporator stage, a compressor stage coupled to the evaporator stage and a condenser stage coupled to the compressor stage. The condenser stage includes a condenser and a condenser cooling fan for cooling the condenser, and a condenser loop coupled between the condenser stage and the evaporator stage. A humidity sensor is configured to detect a humidity level in an area of the cooling system and a controller is configured to cycle an operating state of the condenser cooling fan from ON to a low speed or OFF prior to an end of a cooling cycle. | 01-26-2012 |
20120023976 | AIR CONDITIONER AND METHOD FOR CONTROLLING THE SAME - An air conditioner and control method thereof is provided which may be controlled to adapt operation to changes in power rates. The method may include receiving electric power related information, determining whether a current power rate included in the received information is higher than a preset reference value, determining occupancy of a space to be air conditioned if the current power rate is higher than the preset reference value, and controlling a flow rate of air supplied to the space based on the determined occupancy. | 02-02-2012 |
20120023977 | AIR CONDITIONER AND METHOD FOR CONTROLLING THE SAME - An air conditioner which may controlled to adapt to changes in power rates, and an associated method, are provided. The method may include receiving electric power information, determining whether a current power rate included in the received information is higher than a preset reference value, and supplying electric power from a supplementary electric power source to at least one appliance in a network to which the air conditioner is connected if the current power rate is higher than the preset reference value. | 02-02-2012 |
20120036874 | ACTIVE COOLING OF A COMPRESSOR IN AN APPLIANCE - A system for cooling a compressor for an appliance includes a water source, a compressor having an outer shell, the compressor being configured to compress a refrigerant during a cooling cycle of the appliance, and a fluid heat transfer device. The fluid heat transfer device is configured to receive water from the water source and apply the water to the outer shell for rejecting heat from the compressor. | 02-16-2012 |
20120085109 | Contained UPS System with Temperature Control - An uninterruptible power supply (UPS) system includes an enclosure, a floor system, a UPS, and at least one air conditioning unit. The enclosure defines an interior chamber. The floor system is disposed in the interior chamber. The floor system includes a floor that defines within the interior chamber a main compartment above the floor and a plenum below the floor. The at least one battery is disposed in the plenum. The UPS is disposed in the main compartment and is electrically connected to the at least one battery. The at least one air conditioning unit is operable to generate a first conditioned air flow through the main compartment and a second conditioned air flow through the plenum such that the main compartment is maintained at a first temperature and the plenum is maintained at a second temperature different from the first. | 04-12-2012 |
20120131933 | AIR CONDITIONER AND METHOD FOR OPERATING SAME - An air conditioner according to the present invention comprises an air handling unit comprising a fan for supplying the air mixed the indoor air with the outdoor air to the indoor space and a heat exchanger for exchanging the mixed air blowing by the fan with the chilled water and a temperature sensor for sensing temperature, and a chiller which includes a compressor, a condenser, an expansion device and an evaporator and supplies the chilled water from the evaporator to the heat exchanger through a water pipe connecting the evaporator with the heat exchanger, wherein the chiller communicates with the air handling unit and sets a chilled water set temperature of the chilled water supplied from the evaporator to the heat exchanger according to the result sensed by the temperature sensor and changes the driving capacity of the compressor according the chilled water set temperature. Thus, it can prevent super-cooling and excessive dehumidification of the indoor space when a chilled water temperature of a heat-exchanger is too low. In addition, it can perform the sufficient cooling and dehumidification by the minimum electric consumption. | 05-31-2012 |
20120137710 | DAMPER APPARATUS FOR TRANSPORT REFRIGERATION SYSTEM, TRANSPORT REFRIGERATION UNIT, AND METHODS FOR SAME - Embodiments of systems, apparatus, and/or methods can provide a damper assembly for transport refrigeration systems. One embodiment can include a damper assembly including a damper door configured to operate in a first position (e.g., closed), a second position (e.g., open), and at least one intermediate position. In one embodiment, a plurality of intermediate positions can be used to controllably vary a capacity of the transport refrigeration unit, or at least one component thereof. Embodiments of systems, apparatus, and/or methods can provide a damper assembly that can be accessed though an ambient portion of transport refrigeration systems or components. | 06-07-2012 |
20120144849 | METHOD AND SYSTEM FOR CONTROLLING AUTOMOTIVE HVAC APPARATUS - A system and method for automatically controlling the operation of a climate control system, such as a HVAC, in a vehicle. The system disclosed here includes a monitoring module coupled to a blower motor and a controller coupled to the monitoring module and a compressor. The monitoring module monitors the status of the blower motor, and provides the status condition to the controller. Subsequently, the controller transmits an operational command to the compressor based on the inputs received from the monitoring module. | 06-14-2012 |
20120151947 | APPARATUS AND METHOD FOR SINGLE OR MULTIPLE TEMPERATURE ZONE(S) IN REFRIGERATED VENDING MACHINE - An automated vending machine that can be selectively configured to include one or several temperature zones. A single refrigeration system and universal interior allows easy and economical assembly into a one, two, or three temperature zone machine. Thermal breaks and dividers are used to partition zones, when needed. The basic vending machine cabinet, dispensers, and controls are not changed between configurations. In one aspect, a universal air duct can be used for all three configurations, with minor changes. | 06-21-2012 |
20120159974 | REFRIGERATOR AND CONTROL METHOD THEREOF - A refrigerator, the temperature of the inside of which is uniformly controlled, and a control method thereof. The direction of an air flow in a storage chamber is periodically changed so as to uniformly distribute cool air in the storage chamber by interchanging roles of suction and discharge holes in various manners under various conditions, thereby preventing local supercooling and thus uniformly maintaining the internal temperature of the storage chamber. | 06-28-2012 |
20120167600 | Methods for removing heat from enclosed spaces with high internal heat generation - Methods are provided for cooling data centers based on a cooperative system including a plurality of Indirect Air-Side Economizers, also referred to as Recirculation Air Cooling Units, that are advantageously operated in conjunction with one or more Side Stream Filtration Units or filters inclusive to a portion of the IASE/RACUs, and one or more Make-Up Air Dehumidification/Humidification Units for the introduction of ventilation air and control of humidity within the enclosed space. An objective of the systems and methods according to this disclosure is to provide the necessary rejection of heat, removal of particulate from the air, and control of the absolute moisture content of the air within a data center. | 07-05-2012 |
20120198865 | VEHICLE AIR CONDITIONING CONTROL - Methods and systems are provided for controlling an air conditioning system of a vehicle, the air conditioning system having a condenser fan, are provided. An ambient temperature is obtained. A power setting for the condenser fan is controlled such that energy usage of the air conditioning system is minimized, using the ambient temperature and other available inputs. | 08-09-2012 |
20120198866 | SPATIAL CONTROL OF CONDITIONED GAS DELIVERY FOR TRANSPORT REFRIGERATION SYSTEM TO INCLUDE CARGO SPATIAL TEMPERATURE DISTRIBUTION, AND METHODS FOR SAME - Embodiments of systems, apparatus, and/or methods can provide a supply air delivery system to modify delivered supply air responsive to a sensed condition. Embodiments of transport refrigeration systems, air delivery chutes, plenums in containers, containers and methods for using same according to the application can maintain a prescribed environment for an operatively coupled cargo or a container. | 08-09-2012 |
20120210735 | HYBRID REFRIGERATION SYSTEM FOR A MOBILE UNIT AND METHOD OF OPERATION - A refrigeration system for a mobile unit and a method for operating the same are provided. The method includes the steps of: 1) providing a refrigeration unit having a compressor, an evaporator, and at least one fan operable to move air towards the evaporator, a generator dedicated to the refrigeration unit, and a battery; 2) determining at least one environmental parameter in one or both of the mobile unit and the refrigeration unit; and 3) selectively operating the refrigeration unit in one of a plurality of modes based on the environmental parameter, which plurality of modes includes a first mode wherein at least the fan is powered by the battery, and a second mode wherein the compressor and the fan are powered by the generator. | 08-23-2012 |
20120222436 | Air Cooled Refrigerator, Method And System Of Controlling The Same - A system and method of controlling an air-cooled refrigerator. The air-cooled refrigerator includes a refrigerating compartment, a refrigerating evaporator, and a refrigerating fan for circulating an air between the refrigerating evaporator and the refrigerating compartment. The method may include steps of: detecting a temperature T | 09-06-2012 |
20120227424 | Converging/Diverging Front Intake - An air supply system for a refrigerator cabinet, which reduces temperature differences through-out the cabinet generates air currents in the cabinet by a panel that extends across the inside of the cabinet. The panel is set an angle that directs air downwardly and terminates with an upwardly-inclined air-diverting surface or baffle. The panel and baffle define a converging/diverging air intake for the air supply system, the input of which is located at the front of the refrigerated cabinet. | 09-13-2012 |
20120266617 | REFRIGERATOR - A refrigerator and an operating method thereof are disclosed. The refrigerator includes a refrigerator body having a storage chamber defined therein, a refrigeration cycle device for cooling the storage chamber, a thawing box mounted in the storage chamber, the thawing box having a plurality of air jet holes formed therethrough, a thawing heater mounted in the thawing box for heating a stored object in the thawing box, and a blower mounted at the thawing box for introducing cool air from the storage chamber into the thawing box through the air jet holes such that the stored object is cooled by the air and discharging the air out of the thawing box. The thawing box, the thawing heater, and the blower perform not only a thawing function but also a rapid cooling function, thereby manufacturing the refrigerator in a simple structure at low costs and improving spatial utilization of the storage chamber. | 10-25-2012 |
20120272669 | HVAC UNIT WITH HOT GAS REHEAT - The present disclosure is directed to a single compressor HVAC system with hot gas reheat. The system includes a single compressor, a pair of condensers, a reheat heat exchanger, an evaporator, and an expansion device. Within the system, the refrigerant exiting the compressor is separated into two portions. In the cooling mode, the first and second portions of the refrigerant are directed from the compressor through the two condensers in parallel. In the reheat mode, the first portion of the refrigerant is directed through the first condenser, while the second portion of the refrigerant is directed through the reheat heat exchanger. The system also may include a head pressure control device that is designed to maintain the compressor discharge pressure within a desired range by adjusting the condenser fan speed. | 11-01-2012 |
20120272670 | REFRIGERATOR AND CONTROL METHOD THEREOF - A refrigerator includes a cabinet having a storage space; a barrier to divide the storage space into a freezing compartment and a refrigerating compartment, filled with a heat insulator, and having a depression part formed on one side surface thereof; an evaporator accommodated in a part of the depression part; a blowing unit accommodated in another part of the depression part corresponding to a upper side of the evaporator; a barrier cover to shield the depression part by covering one side surface of the barrier. The depression part includes an evaporator accommodating part to accommodate the evaporator, a blowing unit accommodating part configured to accommodate the blowing unit, and a cold air passage extended from the blowing unit accommodating part to allow the cold air to be guided into the freezing compartment and to refrigerating compartment. The blowing unit accommodating part is depressed greater than the evaporator accommodating part. | 11-01-2012 |
20120318007 | INTERNAL AIR CIRCULATION CONTROL IN A REFRIGERATED TRANSPORT CONTAINER - Disclosed is a system for and a method of controlling internal air circulation within a refrigerated transport container ( | 12-20-2012 |
20130025302 | CRYOSAUNA - A cryosauna for recreational procedures comprises a source of liquid nitrogen, a unit to prepare an operating mixture, and a patient box. The unit has thermo insulated evaporator and mixer in fluid communication with each other. The evaporator is connected via a valve to the source of liquid nitrogen, the mixer through a fan is open to ambient air and connected with the patient box. The patient box is made roofless and comprises a floor, walls, and an adjustable stage to accommodate the patient. The cryosauna also comprises a recycle stream bypass channel connecting the patient box and evaporator and is provided with a three-way discharge valve, a first and a second discharge ducts connecting the patient box with inputs of the discharge valve and a duct fan installed at an output of the discharge valve. | 01-31-2013 |
20130025303 | REFRIGERATOR AND CONTROL METHOD THEREOF - A control method of a refrigerator including a compressor to supply refrigerant to an evaporator to cool a storage compartment, a valve to adjust flow of the refrigerant, a fan to blow air heat-exchanged by the evaporator, and a heater to remove frost from the evaporator. The control method includes, upon receiving a power-saving signal, determining whether the received power-saving signal is a first or second power-saving mode signal, upon determining that the power-saving signal is the first power-saving mode signal, performing at least one selected from among resetting of target temperature of the storage compartment, adjustment of an operation rate of the compressor, and adjustment of operation time of the heater to execute a first power-saving mode, and, upon determining that the power-saving signal is the second power-saving mode signal, controlling the compressor, the fan, and the heater to be off to execute a second power-saving mode. | 01-31-2013 |
20130031919 | REFRIGERATION PLANT AND METHODS OF CONTROL THEREFOR - A refrigeration plant has a refrigerator circuit comprising a compressor, a condensing coil, an expansion valve and an evaporator. Heat is absorbed in the evaporator and exhausted at the condenser. Pressure is measured at the compressor inlet and a blower arrangement for blowing cool air over a heat transfer surface of the condenser is controlled in dependence upon the pressure measurement. | 02-07-2013 |
20130047640 | SYSTEM AND METHOD FOR LOW VOLTAGE DETECTION FOR HEAT PUMP WATER HEATERS - Systems and methods for low voltage detection for a heat pump water heater are disclosed. A current sensor can be used to monitor current supplied to a inductive load, such as a compressor or evaporator fan, of the heat pump water heater. The current sensor can be coupled to a controller which receives and processes information from the current sensor to determine whether a low voltage condition of the heat pump water heater has occurred. An alert can be provided to an installer/user of the heat pump water heater that a low voltage condition has occurred. The controller can also disconnect the heat pump water heater from the power source to prevent damage to the heat pump water heater. | 02-28-2013 |
20130055734 | SENSOR MOUNT FOR A MOBILE REFRIGERATION SYSTEM - A refrigeration system for a mobile unit includes a refrigeration loop ( | 03-07-2013 |
20130055735 | Defrost Bypass Dehumidifier - A defrost bypass dehumidifier includes an air flow path with first, second and third segments in series from upstream to downstream and passing ambient air respectively to an evaporator coil then to a condenser coil and then discharging same. The air flow path has a bypass segment passing ambient air to the evaporator coil in parallel with the noted first air flow path segment. | 03-07-2013 |
20130061618 | ADAPTIVE CONTROLLER FOR A REFRIGERATION APPLIANCE - An adaptive system for controlling a refrigeration appliance is provided. More particularly, a system for controlling the cooling of the refrigerator to achieve a desired temperature performance is provided. A variable damper and variable speed evaporator fan are used to dynamically control temperature of the freezer and fresh food compartments. A model of the refrigerator system can be used to determine the settings for the damper and evaporator fan needed to achieve the temperature performance desired. | 03-14-2013 |
20130061619 | METHOD OF CONTROLLING HEAT SOURCE-SIDE HEAT EXCHANGER FAN , AND AIR CONDITIONER - A heat source-side heat exchanger fan blowing air to a heat source-side heat exchanger performing heat exchange with refrigerant compressed in a compressor is controlled. A current detected temperature at a current time is converted to obtain a current converted high pressure value at the current time. The current converted high pressure is a pressure of refrigerant inside a high pressure-side pipe of the compressor. The current detected temperature is a temperature detected by a temperature detector attached to the heat source-side heat exchanger. A past detected temperature is converted to obtain a past converted high pressure value at the past time. A speed of the heat source-side heat exchanger fan is determined using a corrected converted high pressure value. The corrected converted high pressure value is obtained by correcting the current converted high pressure value based on the past converted high pressure value. | 03-14-2013 |
20130104578 | METHOD FOR OPERATING A REFRIGERATION SYSTEM FOR A CARGO CONTAINER | 05-02-2013 |
20130104579 | Refrigerator with Ultraviolet Light Emitting Diode | 05-02-2013 |
20130118192 | USE OF ADSORPTION OR ABSORPTION TECHNOLOGIES FOR THERMAL-ELECTRIC POWER PLANT COOLING - A hybrid cooling system adapted to provide cooling to a thermal-electric power plant includes an air-cooled condenser (ACC) adapted to provide cooling water to the thermal-electric power plant and a vapor absorption/adsorption refrigerant system (VARS) adapted to provide cooled air to the ACC. The cooled air is used by the ACC to condense steam to produce the cooling water. | 05-16-2013 |
20130118193 | HEAT PUMP AIR-CONDITIONING SYSTEM AND METHOD FOR CONTROLLING THE SAME - A heat pump air-conditioning system includes a four-way valve provided with a first opening, a second opening, a third opening and a fourth opening communicated with each other. The first opening, a compressor, a first heat exchanger, a first expansion device and the second opening are sequentially connected in series. The third opening, a second heat exchanger, a second expansion device, a third heat exchanger and the fourth opening are sequentially connected in series. A first bypass valve is connected in parallel with the first expansion device and is connected between the first heat exchanger and the second opening. A second bypass valve is connected in parallel with the second expansion device and the third heat exchanger and is connected between the third heat exchanger and the fourth opening. A liquid supply system is connected to the first heat exchanger. | 05-16-2013 |
20130139529 | Fan Speed Control For Air-Cooled Condenser In Precision Cooling - An air conditioner system including a condenser fan, an ambient temperature sensor, a refrigerant pressure sensor, and a controller. The ambient temperature sensor is to sense ambient temperature at the system. The refrigerant pressure sensor is to sense pressure of a refrigerant of the system. The target refrigerant pressure module is to identify an optimum pressure of the refrigerant in the system. The controller is to generate an output representing a speed of the condenser fan operable to maintain the pressure of the refrigerant at about the optimum pressure as the ambient temperature of the system changes. | 06-06-2013 |
20130139530 | METHOD AND APPARATUS FOR COOLING - A method of calculating net sensible cooling capacity of a cooling unit includes measuring a discharge pressure from of fluid from a compressor and a suction pressure from an evaporator, calculating a condensing temperature of fluid flowing from the compressor and an evaporating temperature of fluid flowing from the evaporator, calculating a mass flow rate of fluid flowing from the compressor, calculating enthalpy of fluid flowing from the compressor, of fluid flowing from the thermal expansion valve, and of fluid flowing from the evaporator, calculating a mass flow rate of fluid flowing through the hot gas bypass valve, and calculating net sensible cooling capacity. Embodiments of cooling units and other methods are further disclosed. | 06-06-2013 |
20130167565 | METHOD FOR CONTROLLING OPERATION OF REFRIGERATOR - Provided is a method for controlling an operation of a refrigerator. Different operation modes are selected according to whether a refrigerator door is opened and closed, and according to an inner temperature and an ambient noise. Freezing capacity of a compressor, the number of rotations of an evaporator fan, and the number of rotations of a condenser fan are varied in conjunction with one another, to reduce a noise. | 07-04-2013 |
20130186116 | OUTSIDE AIR WATER SOURCE HEAT PUMP - A thermal system and method are provided configured for improved efficiency. The system is typically configured to provide outside air to a building with the combination of a ground/water source heat pump and a dedicated outside air unit. | 07-25-2013 |
20130239597 | VAPOR CYCLE CONVECTIVE COOLING OF ELECTRONICS - A cold plate device and method for cooling electronic systems is provided including a generally flat thermally conductive body having a cooling channel within the thermally conductive body. A first cooling fluid travels through the cooling channel to remove heat from the conductive body. A vapor compression cycle system is coupled to the thermally conductive body such that the first cooling fluid removes heat from a second cooling fluid in a portion of the vapor compression cycle system. | 09-19-2013 |
20130239598 | AIRCRAFT ENVIRONMENTAL CONTROL SYSTEM WITH CONDITIONED HEAT SINK - An air conditioning system for an aircraft includes at least one air conditioning pack which for the purpose of heat dissipation can be connected to at least one cooling air inlet of the aircraft and is designed to cool air and to introduce it at a cabin pressure into a passenger cabin of the aircraft. A separately operable cooling device is designed to cool the ambient air flowing into the cooling air inlet. | 09-19-2013 |
20130247600 | Vehicle Refrigeration Equipment Having a Vapor Cycle System - According to an embodiment, a refrigeration system that cools a compartment includes a compressor, a condenser, a condenser fan, a condenser fan motor, an evaporator, an evaporator fan, an evaporator fan motor, and tubing adapted to transport refrigerant through the refrigeration system in a circulation order from the compressor to the condenser to the evaporator and back to the compressor again. The evaporator fan may be positioned in an air inlet path to the evaporator. The evaporator fan motor may be outside a chilled air circuit of the evaporator. | 09-26-2013 |
20130269374 | METHOD AND DEVICE FOR CONTROLLING AN AIRCRAFT AIR CONDITIONING SYSTEM - A method for controlling an aircraft air conditioning system includes the steps of detecting an operating state of an air conditioning unit of the aircraft air conditioning system and controlling the temperature of a process air mass flow supplied to the air conditioning unit in dependence on the operating state of the air conditioning unit. | 10-17-2013 |
20130291572 | DEVICE AND METHOD FOR COOL DRYING A GAS - A device for cool drying a gas in the direction of flow of the coolant includes a closed cooling circuit with successively a compressor, a condenser and an expansion device and an evaporator that is the primary part of a heat exchanger and that has a secondary part through which the gas to be dried is guided. A bypass pipe in the cooling circuit can be closed by a bypass valve with a valve element and a pressure-sensitive element acting on it that is exposed to a local control pressure in the cooling circuit. A control pressure pipe connects the pressure sensitive element to the closed cooling circuit upstream of the outlet of the evaporator. | 11-07-2013 |
20130305751 | SYNCHRONOUS TEMPERATURE RATE CONTROL FOR REFRIGERATION WITH REDUCED ENERGY CONSUMPTION - Methods of operation for refrigerator appliance configurations with a controller, a condenser, at least one evaporator, a compressor, and two refrigeration compartments. The configuration may be equipped with a variable-speed or variable-capacity compressor, variable speed evaporator or compartment fans, a damper, and/or a dual-temperature evaporator with a valve system to control flow of refrigerant through one or more pressure reduction devices. The methods may include synchronizing alternating cycles of cooling each compartment to a temperature approximately equal to the compartment set point temperature by operation of the compressor, fans, damper and/or valve system. The methods may also include controlling the cooling rate in one or both compartments. Refrigeration compartment cooling may begin at an interval before or after when the freezer compartment reaches its lower threshold temperature. Freezer compartment cooling may begin at an interval before or after when the freezer compartment reaches its upper threshold temperature. | 11-21-2013 |
20130312439 | REFRIGERATION CONTROLLER - A refrigeration controller within a retail refrigeration cabinet controls the temperature ( | 11-28-2013 |
20130319020 | Automatic Shutdown Systems for Refrigerated Cargo Containers - Automatic shutdown systems are used with refrigerated air cargo containers. When a fire signature is detected by one or more sensors, the container exhaust fan(s) are automatically shut down or their external airflow is automatically restricted. In addition, or in the alternative, the shutdown system may likewise act when air transit is detected, such as acceleration and/or a change in altitude. | 12-05-2013 |
20130333402 | CLIMATE CONTROL SYSTEMS FOR MOTOR VEHICLES AND METHODS OF OPERATING THE SAME - Climate control systems and methods of operating climate control systems for motor vehicles are provided herein. In one example, the method comprises the steps of expanding a condensed refrigerant stream with an expansion valve to form a partially expanded refrigerant stream. The partially expanded refrigerant stream comprises a refrigerant liquid phase and a refrigerant vapor phase. The partially expanded refrigerant stream is separated with a liquid-vapor separator into a refrigerant liquid stream and a refrigerant vapor stream. Heat is exchanged between air passing across or through an evaporator and the refrigerant liquid stream passing internally through and expanding in the evaporator to form a superheated refrigerant gas stream. | 12-19-2013 |
20140020412 | REFRIGERATOR WITH AIR DISTRIBUTION MANAGEMENT - A refrigerator includes a refrigerator cabinet, an inner liner disposed within the refrigerator cabinet, a first shelf disposed within the refrigerator cabinet, the first shelf having a back end and an opposite front end, the first shelf positioned to allow air flow between the back end and the inner liner, and a plurality of shelves disposed within the cabinet, each of the shelves having a back end and an opposite front end, each of the shelves is positioned to allow air flow between the back end of each of the shelves and the inner liner. The refrigerator further includes a conduit providing supply air, a baffle positioned above the first shelf and fluidly connected to the conduit, and an elongated air outlet positioned above the baffle and fluidly connected to the conduit for providing a first cold air stream from the supply air proximate a ceiling of the refrigerator cabinet. | 01-23-2014 |
20140041401 | DEHUMIDIFICATION USING INTERMITTENT VENTILATION - Systems and methods for dehumidifying and conditioning air for a commercial building are presented. In one instance, a system involves ventilating a building at a rate higher than the required outdoor airflow rate in order to compensate for the fan being turned off when the compressor is off. Other systems and methods are presented. | 02-13-2014 |
20140069126 | CONTROLLING CHILLED STATE OF A CARGO - A method for operating a refrigeration system for a container for refrigerating chilled cargo includes providing a refrigeration system including a compressor and an evaporator fan associated with an evaporator. The method also includes determining the temperature of supply air and the temperature of return air. The method further includes determining one of a requirement for heating and a requirement for cooling based on the temperature of the return air and the temperature of the supply air. The method additionally includes activating the evaporator fan when a requirement for heating is determined and increasing the speed of the evaporator fan when increased heating is determined. The method also includes activating the compressor and the evaporator fan when a requirement for cooling is determined and increasing the power supplied to the compressor and maintaining the evaporator fan at a first speed when increased cooling is determined. | 03-13-2014 |
20140075971 | METHOD OF OPERATING AN EVAPORATOR ASSEMBLY WITH A FAN CONTROLLER - A method of operating an evaporator assembly in which a refrigerant is circulatable to transfer heat out of air in a housing. The evaporator assembly includes a thermostat that completes a solenoid control circuit when the temperature of the air in the housing is above a predetermined cut-in temperature, and opens the solenoid control circuit when the temperature of the air is below a predetermined cut-out temperature. The thermostat completes a fan control circuit when the solenoid control circuit is open, and opens the fan control circuit when the solenoid control circuit is completed. A fan controller detects a signal voltage when the fan control circuit is completed, and provides a first predetermined drive voltage to a fan motor drive. Upon the fan controller failing to detect the signal voltage, a second predetermined drive voltage being greater than the first predetermined drive voltage is provided to the motor drive. | 03-20-2014 |
20140096546 | METHOD AND APPARATUS FOR OPERATING DUCTED FUMEHOODS WITH INCREASED ENERGY EFFICIENCY - A method for operating a ducted fumehood with increased energy efficiency, wherein the method comprises:
| 04-10-2014 |
20140096547 | VARIABLE FAN SPEED CONTROL IN HVAC SYSTEMS AND METHODS - Generally, a variable fan speed control in an HVAC system is described. Such methods and systems to control fan speed can in turn improve efficiency of the HVAC system by minimizing power consumption, for example of the compressor. The control scheme is based on various operating conditions of compressor load and ambient air temperature, which are used to determine an optimum fan speed. | 04-10-2014 |
20140109603 | INTEGRATED ENVIRONMENTAL CONTROL SYSTEMS AND METHODS FOR CONTROLLING ENVIRONMENTAL TEMPERATURE OF AN ENCLOSED SPACE - Environmental control systems and methods to control environmental temperature of an enclosed space by integrating a passive heat exchange subsystem (e.g., a loop heat pipe (LHP) heat exchange subsystem) having a closed loop heat exchange fluid circuit in heat-exchange relationship with the enclosed space for providing environmental temperature control therewithin, a RAM-air subsystem having a RAM-air circuit for circulating RAM cooling air, and a vapor compression cycle machine (VCM) subsystem having a VCM fluid circuit having a compressor, an evaporator, a condenser and an expansion valve. | 04-24-2014 |
20140144162 | DEMAND AIR DOOR HEATER FOR REFRIGERATOR - A refrigeration system includes a powered barrier or air door that controls air flow between refrigerated compartments. The powered door includes a powered actuator that is electrically connected to and in parallel with an electric heating element configured to melt ice and/or frost that could otherwise interfere with operation of the door. A switch determines if the door is opened or closed and a controller provides electrical power to the powered actuator and the electric heating element until the door shifts to the desired opened or closed position. | 05-29-2014 |
20140144163 | AIRCRAFT AIR CONDITIONING SYSTEM AND METHOD OF OPERATING AN AIRCRAFT AIR CONDITIONING SYSTEM - An aircraft air conditioning system comprises an ambient supply line, an ambient air cooling device connected to the ambient air supply line and adapted to cool ambient air flowing through the ambient air supply line, an ambient air discharge line connected to the ambient air cooling device and being connectable to an aircraft cabin to supply ambient air cooled by the ambient air cooling device to the aircraft cabin, and a refrigerating apparatus. The refrigerating apparatus comprises a refrigerant circuit allowing the flow of a two-phase refrigerant therethrough and is designed to convert the two-phase refrigerant, upon flowing through the refrigerant circuit, from the liquid state of aggregation into the gaseous state of aggregation and thereafter again back from the gaseous state of aggregation into the liquid state of aggregation. The refrigerant circuit of the refrigerating apparatus is adapted to supply cooling energy to the ambient air cooling device. | 05-29-2014 |
20140150480 | COOLING SYSTEM AND METHOD - A cooling system includes an air conditioner capable of cooling a predetermined space and changing an air volume or set temperature; one or more electronic devices disposed in the predetermined space and including a fan of variable rotational speed; a temperature sensor configured to detect temperature of the electronic devices; and a control apparatus configured to select, based on an increase in the detected temperature, whether to increase the air volume or decrease the set temperature of the air conditioner or to increase the rotational speed of the fan, with reference to air-conditioner information indicating a relationship between cooling performance and power consumption of the air conditioner and fan information indicating a relationship between cooling performance and power consumption of the fan. | 06-05-2014 |
20140157802 | BLOWER CONTROL FOR VEHICLE WITH START-STOP ENGINE - A method for controlling blower speed of an air conditioning system in a vehicle having a start/stop engine. A stop event is entered and an ambient temperature and a second temperature (e.g., evaporator) of the air conditioning system are measured. A first cutback limit is determined in response to the ambient temperature. The blower speed is ramped to the first cutback limit The engine is restarted and the blower speed is restored in response to the second temperature reaching a restart threshold. Consequently, a rise in evaporator temperature is delayed so that any to request by the HVAC system to terminate the stop event is also delayed. | 06-12-2014 |
20140157803 | VEHICULAR HVAC SYSTEM WITH MODIFIED AIR RECIRCULATION FOR START-STOP ENGINE - A method controls a recirculation position of a return vent in an HVAC system for a vehicle with a compressor driven by a start/stop engine. A partial s recirculation position is set according to a basic recirculation strategy while the engine is operating. An auto stop event is entered at a time with the compressor operating. A full recirculation position is set during the stop event if a plurality of low fogging probability indicators are true. The low fogging probability indicators include a sensed ambient temperature being above a predetermined temperature, a sensed state of a windshield wiper being an off state, and a sensed sunload being above a predetermined sunload. | 06-12-2014 |
20140157804 | TRANSIT REFRIGERATION CONTROL APPARATUS AND METHOD - A refrigeration control apparatus for a space includes a heat exchanger mounted in the space and having an inlet and an outlet for a cooling medium to be introduced into and exhausted from the heat exchanger; at least one fan assembly mounted in the space and operatively associated with the heat exchanger for moving an airflow over the heat exchanger; a sensor assembly mounted in the space for sensing a temperature of at least the space; and a controller having an electrical connection to the at least one fan and the sensor assembly to control operation of the fan responsive to the temperature of at least the space. A method is also provided for controlling the temperature of the space. | 06-12-2014 |
20140157805 | REFRIGERATOR HAVING A DEW PREVENTION AND/OR CONTROL DEVICE AND METHOD FOR PREVENTING FORMATION OF DEW THEREIN AND/OR THEREON - A refrigerator having a dew prevention and/or control device and a method for preventing the formation of dew in and/or on the refrigerator includes a compressor adapted to compress a refrigerant, a condenser adapted to condense the refrigerant from the compressor, an evaporator adapted to cool air existing therearound by evaporating the refrigerant that passes through the condenser, a pipe between the condenser and the evaporator, configured to pass through the refrigerator body, humidity sensors and/or detectors configured to determine a humidity around the refrigerator, and a controller adapted to vary rotational speed of the fan in accordance with the humidity determined by the humidity sensors and/or detectors, thereby efficiently preventing the formation of dew on or in the refrigerator. | 06-12-2014 |
20140165632 | REFRIGERATOR CONTROL SYSTEM AND METHOD - A control system for operating a refrigerator appliance is provided. The refrigerator has a variable damper, a variable speed fan, and a variable speed compressor. The damper position, evaporator fan speed, and compressor speed are determined through interacting feedback control loops based on the set point temperatures for the fresh food and freezer compartments as well as the measured temperatures in such compartments. The adjustment of these actuators can eliminate large temperature fluctuations and discontinuities in the air flow and improve the thermal performance and energy efficiency of the refrigerator. | 06-19-2014 |
20140196485 | METHOD FOR CONTROLLING A THERMAL STORAGE HEAT PUMP SYSTEM - A thermal storage heat pump system transfers heat to a passenger compartment of a vehicle from at least one of a thermal storage device and ambient air. Heat from the thermal storage device is absorbed by a first coolant flowing through it, and is transferred to a refrigerant via a first heat exchanger. The heat is then transferred from the refrigerant to a second coolant via a second heat exchanger, and then from the second coolant to air flowing into the passenger compartment via a heater core. Heat from ambient air is absorbed by the refrigerant via a third heat exchanger. The heat source is determined by at least one of the thermal storage device temperature, ambient air temperature, and ambient air humidity. At start-up of the vehicle, heat transfer to the refrigerant and to the second coolant is controlled based on low-side and high-side pressure measurements of the refrigerant. | 07-17-2014 |
20140196486 | REFRIGERATION SYSTEM WITH INDOOR CONDENSER AND REMOTE FAN - A refrigeration system for a refrigerated merchandiser includes a refrigerated merchandiser disposed within an indoor environment, the refrigerated merchandiser including a case defining a product display area. The refrigeration system also includes a condenser coupled to the refrigerated merchandiser and disposed within the indoor environment, an evaporator coupled to the condenser and disposed within the indoor environment, a compressor coupled to the evaporator and disposed within the indoor environment, and a condenser fan assembly coupled to the condenser. The condenser fan assembly is disposed remote from the condenser in an ambient environment. | 07-17-2014 |
20140202185 | VEHICLE EVAPORATOR CORE ICING PREVENTION - A climate controller device may be configured to perform operations including comparing an outside air temperature to a threshold temperature; selecting, based on the comparison, one of a function to determine target compressor off setpoint values for relatively lower temperatures and a function to determine target compressor off setpoint values for relatively higher temperatures; retrieving a value according to the selection function to determine target compressor off setpoint values, the value specifying a compressor off setpoint value corresponding to airflow configuration settings; and determining a target compressor off setpoint value based at least in part on the retrieved value. | 07-24-2014 |
20140202186 | Zoned Evaporative Cooling Media for Air Intake House of Gas Turbine - An evaporative cooling system for combustion gas turbine system has an array of cooling media including first and second cooling media types. The first cooling media type has a first maximum air velocity rating, and the second cooling media type has a second maximum air velocity rating that greater than the first maximum air velocity rating. | 07-24-2014 |
20140208783 | REFRIGERATOR - A refrigerator includes a refrigeration cycle system including a compressor, a condenser, an expansion device, and an evaporator through which a refrigerant sequentially passes; a blower fan sending air cooled by the evaporator to a freezer compartment and a refrigerator compartment; and a damper regulating air sent from the evaporator to the refrigerator compartment, in which when the freezer compartment temperature is not satisfactory and the refrigerator compartment temperature is not satisfactory, the refrigerator operates in a concurrent operation mode in which the compressor is operated, the damper is opened, and first voltage is applied to the blower fan, and when the freezer compartment temperature is not satisfactory and the refrigerator compartment temperature is satisfactory, the refrigerator operates in a freezer compartment single operation mode in which the compressor is operated, the damper is closed, and second voltage lower than the first voltage is applied to the blower fan. Accordingly, it is possible to minimize the power consumed in the freezer compartment single operation mode. | 07-31-2014 |
20140230466 | SCROLL COMPRESSOR DIFFERENTIAL PRESSURE CONTROL DURING COMPRESSOR STARTUP TRANSITIONS - A method including: determining a cooling value; and comparing the cooling value to an activation point of a lead compressor. The lead compressor is in a tandem set of scroll compressors of a cooling system. The tandem set of compressors comprises a lag compressor. The method further includes: activating the lead compressor when the cooling value is greater than the activation point; activating the lag compressor subsequent to activating the lead compressor; and determining whether conditions exist including: an alarm associated with the lag compressor being generated, and the lead compressor being deactivated. The method further includes deactivating the lag compressor when at least one of the conditions exists in the cooling system. | 08-21-2014 |
20140230467 | SCROLL COMPRESSOR DIFFERENTIAL PRESSURE CONTROL DURING COMPRESSOR SHUTDOWN TRANSITIONS - A method including determining whether an OFF criterion is satisfied for a lag compressor of a tandem set of scroll compressors. The tandem set of scroll compressors includes a lead compressor. The method further includes: initiating at least one process when the OFF criterion is satisfied; and maintaining the lag compressor in an ON state for a predetermined period subsequent to the OFF criterion being satisfied. The at least one process includes at least one of: operating the lead compressor at a maximum level; overriding a motor overload protection method, wherein the motor overload protection method protects motors of the lead compressor and the lag compressor; and overriding a proportional integral derivative (PID) method to reduce a speed of a condenser fan. The PID method controls the speed of the condenser fan. | 08-21-2014 |
20140238056 | METHOD OF CONTROLLING COOLING DEVICE - A method of controlling a cooling device capable of stably cooling a heat source is provided. A cooling device includes a first passage through which a coolant discharged from a compressor flows into a cooling unit for cooling EV equipment; a second passage through which the coolant is circulated between a heat exchanger and the cooling unit; a switching valve switching communication of the first passage and communication of the second passage; and a liquid storage container storing a liquid coolant condensed in the heat exchanger. The control method includes the steps of: increasing an amount of the liquid coolant stored in the liquid storage container; and switching the switching valve so as to block the first passage and allow communication of the second passage. | 08-28-2014 |
20140245762 | HEATING, VENTILATION, AND AIR CONDITIONING SYSTEM - A high-efficiency HVAC system and method of operation, for use in a house or building, having a plurality of components, including flexible, plastic duct tubing forming supply pipes that connect an air handler and a plurality of zones to deliver supply air to the zones and return pipes that connect the air handler and the zones to re-circulate return air; the air handler having a fan assembly powered by a variable blower motor to blow supply air to the zones; a heat pump having a variable compressor powered by a variable compressor motor to direct a working fluid to and from the air handler and a variable fan motor that rotates a fan blade within the heat pump; and a circuit control system for adjusting the variable compressor motor and the variable fan motor in the heat pump and the variable blower motor in the air handler. | 09-04-2014 |
20140260365 | PORTABLE REFRIGERATION UNIT FOR PALLETIZED PRODUCT - A portable refrigeration unit for cooling palletized products disposed within a racking system. The portable refrigeration unit includes a case and a refrigeration system disposed in the case. The case includes a bottom wall, a top wall, and side walls. The case is configured to be supported by the racking system above a pallet of products positioned below the case. The refrigeration system includes a compressor, a condenser, an expansion device, and an evaporator connected in series. The refrigeration system includes an evaporator fan configured to draw in air from below the case, move the air through the evaporator, and then discharge the air through the bottom wall such that the cooled air passes over the products below the case to cool the products below the case. | 09-18-2014 |
20140260366 | MOISTURE CONTROL SYSTEM FOR AN APPLIANCE AND METHOD FOR CONTROLLING MOISTURE WITHIN AN APPLIANCE - A moisture control system includes a cabinet having a mullion defining first and second compartments and openings within the mullion to provide selective communication between the compartments. An evaporator is disposed in the first compartment. A cooling bank is disposed in the second compartment in selective thermal communication with the evaporator, and includes cooling and condensing portions separated by a dividing member, and a fluid collector disposed proximate the condensing portion. A first cooling fan is disposed proximate the evaporator and configured to direct air across the evaporator and through the first compartment. A second cooling fan is disposed proximate the cooling bank and operable between an evaporator position in fluid communication with the evaporator and the cooling bank, and a bank position in fluid communication with the cooling bank. A panel assembly is disposed proximate the plurality of openings and operable between a plurality of positions. | 09-18-2014 |
20140260367 | CONTROL SYSTEM AND METHOD FOR A LIQUID DESICCANT AIR DELIVERY SYSTEM - An air delivery system may include a housing, a first liquid-to-air membrane energy exchanger (LAMEE), and a desiccant storage tank. The housing includes a supply air channel and an exhaust air channel. The first LAMEE may be an exhaust LAMEE disposed within an exhaust air channel of the housing. The exhaust LAMEE is configured to receive the outside air during a desiccant regeneration mode in order to regenerate desiccant within the exhaust LAMEE. The desiccant storage tank is in communication with the exhaust LAMEE. The exhaust LAMEE is configured to store regenerated desiccant within the desiccant storage tank. The regenerated desiccant within the desiccant storage tank is configured to be tapped during a normal operation mode. | 09-18-2014 |
20140260368 | HEAT PUMP DEFROSTING SYSTEM AND METHOD - A heat pump system for conditioning regeneration air from a space is provided. The heat pump system is operable in a winter mode and/or a summer mode, and may be selectively operated in a defrost mode or cycle. During a defrost mode, hot refrigerant may be used to directly and sequentially defrost the regeneration air heat exchanger. A compressor may be configured to be overdriven during a defrost cycle. | 09-18-2014 |
20140298831 | Systems and Methods for Conditioning Air - A system for conditioning air in a structure includes a first conditioning system and a second conditioning system. The first conditioning system is capable of supplying conditioned air to a first space of the structure. The first space is enclosed, at least in part, by one or more external walls. The second conditioning system is capable of supplying conditioned air to a second space of the structure that is located above the first space. The second space is enclosed, at least in part, by a roof that is sealed to prevent a flow of air between the second space and an outside environment. The first space and the second space are separated by a ceiling that permits thermal energy to pass between the first space and the second space. | 10-09-2014 |
20140305147 | System And Method For Cooling A Compartmentalized Refrigeration Enclosure - A refrigeration enclosure comprises a cargo box with a partition wall that subdivides the cargo box into compartments. In one embodiment, the refrigeration enclosure includes a refrigeration system with a refrigeration unit for cooling one of the compartments and an air moving device disposed proximate the partition wall to facilitate airflow from the first compartment to the second compartment. The refrigeration system further comprises a control device coupled to each of the air moving device and the refrigeration unit. The control device provides control signals that vary the operation of each of the air moving device and the refrigeration unit in response to variations in the operating conditions (e.g., temperature) inside each of the compartments. | 10-16-2014 |
20140318159 | VEHICLE AIR CONDITIONING SYSTEM - A vehicle air conditioning system includes a compressor configured to compress refrigerant, a condenser, an evaporator, a temperature sensor and a controller. The condenser receives the refrigerant from the compressor and the evaporator receives the refrigerant from the condenser. The temperature sensor is positioned proximate the evaporator to measure a temperature of air passing through the evaporator prior to entering a vehicle passenger compartment. The controller is operatively coupled to the compressor to cycle the compressor on and off based upon the temperature measured by the temperature sensor and correlation data stored in the controller that correlates temperatures at the evaporator to estimated moisture densities at the evaporator to maintain the moisture density of the air in the vehicle passenger compartment below a predetermined moisture density threshold. | 10-30-2014 |
20140338374 | Component Mounting In An Integrated Refrigerated Container - A refrigeration system for an interior space ( | 11-20-2014 |
20140338375 | REAR DOOR INFLATABLE DEVICE FOR AN INTEGRATED REFRIGERATED CONTAINER - A method for reducing air leakage from a refrigerated container includes positioning at least one inflatable device about a rear end of the refrigerated container; coupling the at least one inflatable device to one end of an elongated duct located within an interior space of the refrigerated container; coupling a second end of the elongated duct to an outlet port of the evaporator fan; circulating, via the evaporator fan, air through the interior space; and extracting the circulated air through the elongated duct and into the at least one inflatable device. | 11-20-2014 |
20140360211 | Controlling HVAC Condenser Fans Using Pressure Sensors - A heating, ventilation and air conditioning (HVAC) unit may both save energy and monitor for fault conditions by monitoring an ambient air temperature, compressor discharge pressure, and evaporator suction pressure and using these measurements to identify known conditions. Compressor discharge pressure and ambient temperature may be used as indices to a look up table or map to determine a speed and direction for a condenser fan. In some cases, the look up table may direct the fan to be reversed at full power in an attempt to remove a suspected buildup of dirt or debris at the condenser. Ambient temperature and evaporator suction pressure may be monitored for a combination of conditions that indicate low refrigerant levels, allowing the compressor to be turned off before damage to the compressor is sustained. | 12-11-2014 |
20140360212 | AIR CONDITIONER AND METHOD OF CONTROLLING THE SAME - A method of controlling an air conditioner including a compressor, an outdoor heat exchanger, an expansion valve and an indoor unit, includes detecting an indoor temperature and an outdoor temperature and checking an indoor load and an outdoor load when an operation command is input, determining an operation frequency of the compressor and a degree of opening of the expansion valve based on the checked indoor load and the outdoor load, driving the compressor at the determined operation frequency and opening the expansion valve to the determined degree of opening, thereby supplying a refrigerant to an indoor heat exchanger having a first cooling panel and a second cooling panel disposed parallel to each other, controlling a rate of rotation of each of the indoor fans based on the operation frequency of the compressor and the degree of opening of the expansion valve. | 12-11-2014 |
20150007593 | MULTI-MISSION REBREATHER COOLING SYSTEM - An apparatus includes a scrubber bed, a cooling unit operatively connected to the scrubber bed, and a frame configured for a user to carry the apparatus. The cooling unit includes a compressor, a condensing coil operatively connecting the compressor to an expansion valve, and an evaporating coil operatively connecting the expansion valve to the compressor, and a first fluid circulating through the compressor, the condensing coil, the expansion valve, and the evaporating coil. A method of cooling a gas in a rebreather apparatus includes scrubbing an exhalation gas to produce a recycled gas having a lower concentration of carbon dioxide than the exhalation gas, compressing, condensing, expanding, and evaporating a refrigerant in a closed-loop system, transferring heat energy from the recycled gas to the refrigerant, and metering a cooled gas to the user. | 01-08-2015 |
20150013355 | Aircraft air conditioning system and method of operating an aircraft air conditioning system - An aircraft air conditioning system comprising an ambient air supply line allowing a flow of ambient air therethrough, an ambient air cooling device to cool the air flowing through the ambient air supply line, and a discharge line connected to the ambient air cooling device and an aircraft cabin. A compressed air supply line allows a flow of compressed air therethrough, a compressed air cooling device is connected to the compressed air supply line to cool the air flowing through the compressed air supply line, and a discharge line is connected to the compressed air cooling device and to the aircraft cabin. A refrigerant circuit allows the flow of a two-phase refrigerant therethrough and converts the two-phase refrigerant from the liquid state into the gaseous state of aggregation and thereafter back again. The refrigerant circuit supplies cooling energy to the ambient air cooling device and the compressed air cooling device. | 01-15-2015 |
20150027147 | AIR CONDITIONING SYSTEMS WITH MULTIPLE TEMPERATURE ZONES FROM INDEPENDENT DUCTING SYSTEMS AND A SINGLE OUTDOOR UNIT - A high-efficiency air conditioning system for conditioning a plurality of zones within an interior of a building that includes: at least two independent ductwork systems within a building wherein each independent ductwork system directs heating and cooling to one zone within the building; a single outdoor unit a refrigerant flow pathway having a common refrigerant flow path portion, a first divergent flow path, and a second divergent flow path; at least one throttling device and at least a first indoor air handling unit providing cooling to a first independent ductwork system and a second indoor air handling unit providing cooling to a second indoor ductwork system. The compressor is incapable of simultaneously supplying both the first evaporator and the second evaporator at their full cooling capacity. | 01-29-2015 |
20150027148 | HEAT EXCHANGER ASSEMBLY, REFRIGERATOR, AND METHOD OF CONTROLLING A REFRIGERATOR - A heat exchanger assembly, a refrigerator, and a method of controlling a refrigerator are provided. The heat exchanger assembly may include a heat exchanger provided on or at a side of a refrigerator body, the heat exchanger including a refrigerant tube, in which a refrigerant may flow, and at least one heat exchange fin, in which the refrigerant tube may be inserted, a temperature sensor disposed on or at an inlet-side or an outlet-side of the heat exchanger to detect a temperature of the refrigerant, and a sensor holder to fix a guide tube disposed on or at an inlet-side or outlet-side of the refrigerant tube and the temperature sensor in a state in which the guide tube is in contact with the temperature sensor. | 01-29-2015 |
20150033775 | Apparatus and Method for Monitoring and Controlling Load Requirements - An apparatus and method for monitoring and controlling load requirements relating to a transport refrigeration unit, including receiving one or more power information from a load: a power consumption information or a power requirement information; receiving one or more state information from the load: state of a compressor, state of a condenser, state of a compressor fan, state of an evaporation fan or state of a condenser fan; determining the following based on one or more power information and one or more state information: a) an amount of power to supply, b) a time duration for supplying power, and c) an operational frequency. In one example, one or more auxiliary information are also used for the determination: a fluid leakage measurement, a current measurement, a timer measurement, a counter measurement, a controlled environment temperature, or an environmental temperature. | 02-05-2015 |
20150033776 | HVAC System Subcooler - An air handling unit has a refrigeration coil assembly and a subcooler circuit disposed in a downstream airflow path relative to the refrigeration coil assembly. | 02-05-2015 |
20150059369 | METHOD OF CONTROLLING ONE OR MORE FANS OF A HEAT REJECTING HEAT EXCHANGER - A method of controlling a fan of a vapour compression system is disclosed. The vapour compression system comprises a compressor, a heat rejecting heat exchanger, e.g. in the form of a gas cooler or a condenser, an expansion device and an evaporator arranged in a refrigerant circuit. The fan is arranged to provide a secondary fluid flow across the heat rejecting heat exchanger, e.g. in the form of an air flow. The method comprises the steps of establishing a temperature, T | 03-05-2015 |
20150059370 | REFRIGERATOR AND METHOD OF CONTROLLING A REFRIGERATOR - A refrigerator and a method of controlling a refrigerator are provided. The refrigerator may include a machine room defined in or at one side of a storage compartment, a base that defines a bottom surface of the machine room, a compressor seated on the base to compress a refrigerant, a condenser that condenses a refrigerant compressed in the compressor, the condenser being disposed on or at one side of the compressor, a drain pan disposed on the base to store condensed water generated in the condenser, and a fan assembly coupled to the base to generate an air flow within the machine room. The fan assembly may include a plurality of condensation fans. | 03-05-2015 |
20150075193 | SWING SEAL FOR A RACK-AISLE FREEZING AND CHILLING SYSTEM - An automatically adjustable swing seal for a rack-aisle freezing and chilling system extends, for example, from the top horizontal frame member of a racking structure and defines an intake opening along with side seals and a bottom seal. The swing seal is positioned at a height such that a product stack having a top edge positioned at any point along the face of the swing seat creates a seal between the intake opening and the stack via the swing seal, the side seals, and the bottom seal. Thus, stacks of varying heights may automatically be accommodated. Further, the bottom edge of the swing seal may be beveled, such that if a product stack is not evenly stacked a portion of the uneven stacking will not catch against the swing seal when the stack is pulled away from the opening. | 03-19-2015 |
20150096311 | HEAT EXCHANGER, AND METHOD FOR TRANSFERRING HEAT - A heat exchanger is provided to efficiently transfer heat between air and a flow of refrigerant in a reversing air-sourced heat pump system. When the system is operating in heat pump mode, a flow of air is directed through the heat exchanger and is heated by the refrigerant. A portion of the flow of air is prevented from being heated by the refrigerant in a first section of the heat exchanger, and is used to sub-cool the refrigerant in another section of the heat exchanger after the remaining air has been heated by the refrigerant. The same heat exchanger can be used to cool a flow of air using expanded refrigerant when the system is operating in an air conditioning (cooling) mode. | 04-09-2015 |
20150114014 | AIR CONDITIONER AND METHOD OF CONTROLLING THE SAME - An air conditioner includes an indoor unit, an outdoor unit including an outdoor fan, a sensor unit mounted at an upper portion of the outdoor unit to sense snow piled up on the outdoor unit, and a control unit to determine whether snow is piled up or not based on an output from the sensor unit and control an operation of the outdoor fan to remove snow when snow is piled up based on the determination. The sensor unit includes a photo sensor and a temperature sensor. | 04-30-2015 |
20150121914 | REFRIGERATOR STORAGE COMPARTMENT ASSEMBLY - A storage compartment assembly is located within the interior of a compartment of a refrigerator such as a fresh food compartment of a refrigerator. The storage compartment assembly includes a storage container the temperature of which can be controlled independently of the temperature in the fresh food compartment. At least one of the sides of the storage container can be spaced away from a respective interior side of the refrigerator compartment and a housing located in the space between the side of the storage container and the interior side of the refrigerator compartment. The housing can contain components that are configured to function in the operation of the refrigerator, including the storage compartment assembly. The refrigerator can comprise a bottom-mount refrigerator and the fresh food compartment can be provided with double-doors for closing and opening the interior of the fresh food compartment. | 05-07-2015 |
20150128623 | METHODS OF MAKING AND USING AN AIRFOIL IN A BLAST FREEZER AND BLAST FREEZER EMPLOYING THE AIRFOIL - A method for adjusting pressure at an inlet of a blast freezer. The method includes positioning an airfoil proximate to the inlet, the inlet having a perimeter. The airfoil includes a strip of material having a length and being attached to the freezer along at least one side of the inlet, the strip of material being spaced from the perimeter of the inlet by an offset distance. The offset distance at any location along the length of the strip of material is the closest distance between the strip of material and the perimeter at that location. The offset distance varies substantially along at least a portion of the strip of material. Cold air is flowed in the blast freezer past the inlet and over the airfoil so that the flow of air past the inlet is disrupted and creates a resultant adjustment to the air pressure at the inlet. | 05-14-2015 |
20150128624 | CONDENSER ASSEMBLY WITH A FAN CONTROLLER AND A METHOD OF OPERATING SAME - A condenser assembly through which a refrigerant is circulated to transfer heat from the refrigerant to ambient air in which the condenser assembly is at least partially disposed. The condenser assembly includes a compressor, a crankcase heater energizable via a crankcase heater control circuit, a condenser, a condenser fan, and an electronically commutated condenser fan motor. The condenser assembly also includes an ambient temperature sensor for sensing at least one temperature of the ambient air, to provide a sensed temperature. The condenser assembly includes a condenser switch subassembly configured to control energization of the crankcase heater and the condenser fan motor. The condenser switch subassembly is controlled by the ambient temperature sensor. The condenser fan motor is controlled by a condenser fan controller that applies a first voltage or a second voltage to the condenser fan motor depending on whether a third conductor attached to the motor is energized. | 05-14-2015 |
20150135741 | Venturi Refrigeration System - Apparatus that primarily includes a narrow tube, through which a gas, preferably air, is forced to flow at a substantially high axial velocity. The gas, which must accelerate to reach that velocity and consequently becomes substantially cooler than the environment, then dissipates heat, through the wall of the tube from whatever is in thermal communication with that wall and thus refrigerates it. The gas does not undergo a change of phase. Preferably the tube forms the middle segment of a continuous tri-segment duct, through which the gas flows; the other two segments have each a tapered passageway, whose diameter varies between that of the tube and a considerably larger diameter at the corresponding end of the duct. | 05-21-2015 |
20150292788 | CONDENSER EXHAUST FAN LOCATION WITHIN A TRANSPORT REFRIGERATION UNIT - A transport refrigeration unit (TRU) for a transport refrigeration system (TRS) is described. The TRU can be configured to have an upper compartment to accommodate a compressor and an engine, and a condenser compartment that is generally positioned below the upper comportment. The condenser compartment can include a condenser and a fan at a bottom portion of the condenser compartment. The fan can be configured to blow air out of the condenser compartment in a downward direction from the bottom portion of the condenser compartment. The TRU can also have an evaporator compartment that is generally positioned behind the condenser compartment. The evaporator compartment can accommodate an evaporator that is generally positioned below the upper compartment. The evaporator compartment can have an air inlet and an air outlet that is positioned higher than the air outlet. In operation, airflow through the evaporator compartment is directed in a downward direction. | 10-15-2015 |
20150300715 | METHOD FOR CONTROLLING AN AIR CONDITIONER - A method for controlling an air conditioner. The method for controlling an air conditioner may include determining time information for determining an execution time of a low-noise operation and performing the low-noise operation according to the determined time information. The performing of the low-noise operation may include limiting a maximum value of an operation frequency of a compressor; and reducing an amount of refrigerant introduced into an indoor unit or device. | 10-22-2015 |
20150316313 | METHOD AND SYSTEM FOR CONTROLLING OPERATION OF EVAPORATOR FANS IN A TRANSPORT REFRIGERATION SYSTEM - Methods and systems for controlling the operation of the evaporator fans in a transport refrigeration system (TRS) are described. In some examples, the TRS is a multi-zone temperature control system (MTCS). The methods and systems described herein generally dynamically control a plurality of system fans in MTCSs in instances where running the system fans can lead to inefficiencies in energy consumption and fluctuations in temperature control. | 11-05-2015 |
20150328954 | VEHICLE AIR CONDITIONING SYSTEM AND METHOD FOR OPERATING SUCH A SYSTEM - The invention relates to a method for operating an air conditioning system for a vehicle including the steps of:
| 11-19-2015 |
20150335175 | REFRIGERATION CONTROL USING A DOOR HANDLE PROXIMITY SENSOR - A temperature-controlled display device includes a temperature-controlled space and a refrigeration circuit configured to provide cooling for the temperature-controlled space. The refrigeration circuit is configured to operate in multiple cooling modes including a normal refrigeration mode and an anti-ingression mode. A proximity sensor is configured to detect an object such as a human hand or forearm within a detection zone adjacent to a door handle of the temperature-controlled display device. A controller estimates a distance between the handle and the detected object using an input from the proximity sensor. The controller causes the refrigeration circuit to transition between the multiple cooling modes based on the estimated distance. | 11-26-2015 |
20150369527 | SYSTEMS AND METHODS FOR MANAGING CONDITIONS IN ENCLOSED SPACE - Systems and methods for controlling temperature in an enclosed space can include an air-to-air heat exchanger (AAHX) and a direct evaporative cooler (DEC). The DEC can be located in a scavenger or outdoor air stream such that the DEC cools the outdoor air, which is then used to cool or reject heat from a process air stream passing through the AAHX. In an example, the AAHX can be a sensible wheel. In another example, the AAHX can be a counter-flow flat plate. The system can operate in various modes, including an economizer mode and an evaporation mode, depending, in part, on the outdoor air conditions and a load on the system. In some examples, the system can include a DX coil to provide additional cooling to the process air in another operating mode. | 12-24-2015 |
20150377509 | METHOD FOR AIR CONDITIONING AN IT ENVIRONMENT OR AN ENVIRONMENT WHICH CONTAINS HEAT GENERATORS - The invention relates a method for air conditioning of an IT environment which comprises hardware IT devices, computers, memories, telecommunication devices and peripheral devices, wherein a refrigeration supply system of the IT environment has a free cooler, refrigerators and an air circulation system which is operated by means of fans and contains heat exchangers for drawing off the heat generated by the hardware, wherein the method includes the following steps: determining a basic desired value for the feed air temperature of the IT environment on the basis of the existing hardware-configuration, measuring at least one parameter of the hardware which represents a disturbance variable which has a direct or indirect effect on the feed air temperature, and storing the measured value of the parameter, ascertaining a desired value for the feed air temperature from the measured parameter value of the hardware, and raising the target value for the feed air temperature until a critical parameter value is measured, then reducing the desired value for the feed air temperature until the stored value is achieved again, and optionally, if the stored value is not reached within a previously defined time period, resetting the desired value for the feed air temperature to the basic desired value. | 12-31-2015 |
20160003513 | SYNCHRONOUS TEMPERATURE RATE CONTROL FOR REFRIGERATION WITH REDUCED ENERGY CONSUMPTION - Methods of operation for refrigerator appliance configurations with a controller, a condenser, at least one evaporator, a compressor, and two refrigeration compartments. The configuration may be equipped with a variable-speed or variable-capacity compressor, variable speed evaporator or compartment fans, a damper, and/or a dual-temperature evaporator with a valve system to control flow of refrigerant through one or more pressure reduction devices. The methods may include synchronizing alternating cycles of cooling each compartment to a temperature approximately equal to the compartment set point temperature by operation of the compressor, fans, damper and/or valve system. The methods may also include controlling the cooling rate in one or both compartments. Refrigeration compartment cooling may begin at an interval before or after when the freezer compartment reaches its lower threshold temperature. Freezer compartment cooling may begin at an interval before or after when the freezer compartment reaches its upper threshold temperature. | 01-07-2016 |
20160003518 | COOLING SYSTEM WITH INCREASED EFFICIENCY - A cooling system is disclosed. The cooling system may have an evaporator, an evaporator fan, a condenser, and at least one compressor. The compressor may be either a single speed or a variable speed compressor. In addition, the system can use a mechanical or electrical pulsed operation refrigerant flow control valve for controlling refrigerant flow to the evaporator. | 01-07-2016 |
20160010899 | CLIMATE CONTROL SYSTEMS AND METHODS | 01-14-2016 |
20160033189 | SYSTEM AND METHOD FOR ESTABLISHING A RELATIVE HUMIDITY WITH A CHILLED CHAMBER OF A REFRIGERATOR APPLIANCE - A method for establishing a relative humidity of air within a chilled chamber of a refrigerator appliance is provided. The method includes measuring a temperature of air with a dry bulb temperature sensor, measuring the temperature of air with a wet bulb temperature sensor and calculating a relative humidity for air about the dry and wet bulb temperature sensors based at least in part on the temperature of air measured with the dry bulb temperature sensor and the temperature of air measured with the wet bulb temperature sensor. A related refrigerator appliance is also provided. | 02-04-2016 |
20160083100 | AIRCRAFT AIR CONDITIONING SYSTEM AND METHOD OF OPERATING AN AIRCRAFT AIR CONDITIONING SYSTEM - An aircraft air conditioning system comprising an ambient air supply line having a first end connected to an ambient air inlet and a second end connected to a mixer of the aircraft air conditioning system so as to supply ambient air to the mixer. A first compressor is arranged in the ambient air supply line and is adapted to compress the ambient air flowing through the ambient air supply line. A bleed air supply line allows a flow of bleed air bled off from an engine or an auxiliary power unit therethrough. A bleed air turbine is driven by the bleed air flowing through the bleed air supply line and is coupled to the first compressor so as to drive the first compressor. | 03-24-2016 |
20160091425 | OUTDOOR UNIT OF AIR CONDITIONER AND METHOD OF CONTROLLING THE SAME - Provided are an outdoor unit of an air conditioner that detects snow that piles up on the outdoor unit of the air conditioner and a method of controlling the same. When a detection device is installed in the outdoor unit and snow piles up in a snow cover detection area included in the detection device, it is detected using an optical sensor whether snow cover occurs. A value detected by the optical sensor is transmitted to a controller, and the controller compares the value with a default value, and when the controller receives a value different from the default value, the controller controls a fan driving unit to drive a fan. Wind generated by driving the fan removes snow that piles up in the snow cover detection area, a fan guard and a discharge port to prevent the fan from malfunctioning due to accumulated snow. | 03-31-2016 |
20160101674 | Refrigerated Container with Dual Air Curtain - A transport refrigeration system comprises: a container ( | 04-14-2016 |
20160102882 | METHOD FOR THE CONDITIONING OF AIR, AND AIR-CONDITIONING SYSTEM - In order to provide a method for the conditioning of air which is implementable in a reliable and energy-efficient manner, it is proposed that the method comprise the following:
| 04-14-2016 |
20160144692 | MODULAR HVAC SYSTEM WITH ENGINE-ON AND ENGINE-OFF OPERATION - An auxiliary HVAC system according to an example of the present disclosure includes an engine-on module configured to provide cooling or heating during an engine-on mode and an engine-off module connected to the engine-on module and configured to provide cooling or heating during an engine-off mode. | 05-26-2016 |
20160176263 | AIR CONDITIONING SYSTEM FOR TRACTOR TRAILERS | 06-23-2016 |
20160178266 | Electronically commutated fan motors and systems | 06-23-2016 |