Class / Patent application number | Description | Number of patent applications / Date published |
165122000 | Heating or cooling means and gas pump in housing | 50 |
20080251240 | INTEGRATED HEAT EXCHANGERS IN A RACK FOR VERTICAL BOARD STYLE COMPUTER SYSTEMS - A system for cooling heat-generating objects, such as computer boards situated in a rack, includes an enclosure in which the heat generating objects are situated. The enclosure has an air inlet and an air outlet, and a fan induces airflow into the air inlet, through the enclosure and out the air outlet. A heat exchanger is situated in the enclosure such that the heat exchanger is in a spaced apart relationship with the heat-generating object. Air moving through or past the heat-generating object is warmed, and the heat exchanger removes the heat before the air exits the enclosure. | 10-16-2008 |
20090000774 | INTEGRATED HEAT EXCHANGER AND DIFFUSER - The present invention discloses an apparatus including: a blower fan, the blower fan having multiple blades; a diffuser attached to a housing of the blower fan; diffuser vanes located in the diffuser, wherein the diffuser vanes are also fins for a heat exchanger. | 01-01-2009 |
20090038783 | COMPUTER COOLING CASE OF NEGATIVE PRESSURE SUCKING TYPE - A computer cooling case includes a computer case and a plurality of fans. Each fan is for exhausting air in the computer case to the outside. During operation, a negative pressure is created in the computer case to define a zone to be cooled. A plurality of intakes are arranged on one side of the computer case in the neighborhood of the zone to be cooled. An air-guiding passage is arranged from each intake to the zone to be cooled. When each fan is operated, since the computer case is under a negative pressure state, outside air may be sucked in through each intake and then guided to each zone to be cooled for undertaking a cooling process. | 02-12-2009 |
20090145584 | Cooling Device - A cooling device ( | 06-11-2009 |
20090151911 | Fan Module - A fan module, particularly for cooling motor vehicle engines allows for improved cooling of the fan motor. The fan housing ( | 06-18-2009 |
20090255654 | Centrifugal Fan and Air Conditioner Using the Same - The present invention provides a centrifugal fan by which air velocity distribution in the height direction of impellers at a fan blow-out port is made uniform and running noise is reduced, and an air conditioner whose running noise is reduced by applying the centrifugal fan thereto. The centrifugal fan is provided with a hub for fixing the rotary shaft of a motor, a main plate formed on the outer circumference of the hub, a shroud disposed to be opposed to the main plate, which forms an air passage, a plurality of impellers disposed between the main plate and the shroud, and a bellmouth disposed at the suction side of the shroud. Projections or recesses are formed on the surface of the shroud facing the bellmouth, which projections or recesses form air streams flowing from the center of the shroud toward the outer circumference thereof along the surface when running a fan. The air conditioner has a thus constructed centrifugal fan mounted therein. | 10-15-2009 |
20100071884 | Memory Module Assembly and Heat Sink thereof - A memory module assembly includes a plurality of memory modules and a heat sink assembly. Each of the memory modules includes at least one heat source. The heat sink assembly includes a heat dissipating plate and a plurality of heat transfer mediums. Each of the heat transfer mediums includes a base attached to the heat dissipating plate, and at least one resilient sheet extending from an end of the base. The base and the resilient sheet define an included angle which is non-right angle so that the resilient sheet can snugly clip to the respective heat source. | 03-25-2010 |
20100084119 | TEMPERATURE CONTROL ASSEMBLY RECEIVABLE IN A CONTAINER LID - A transit container, such as a rack-mount style container, includes a temperature control system for maintaining a desired temperature within the container such that any cargo within the container remains operational at selected times and possibly in selected locations. The temperature control system includes support or mounting brackets, a temperature control assembly, shock isolation devices for shock attenuation of the temperature control assembly, exhaust assemblies that include exhaust fans and exhaust/intake louvers, and a mounting plate attachable to a lid of the transit container. The temperature control assembly and the aforementioned components may be arranged to have a low-height profile or envelope, which in turn permits the temperature control system to be located in a cavity or chamber of the lid. | 04-08-2010 |
20100147496 | HEAT DISSIPATION DEVICE WITH HEAT PIPE - A heat dissipation device includes a heat sink and a helical heat pipe assembly. The heat sink includes a hollow cylindrical body and a number of fins extending inwardly from an inner surface of the body to an axis of the body. The helical heat pipe assembly is wrapped on an outer surface of the body and helically extends along an axial direction of the body. | 06-17-2010 |
20100193165 | HIGHLY EFFICIENT ENVIRONMENT-FRIENDLY AIR TYPE HEAT EXCHANGER - Disclosed herein is an eco-friendly high-efficiency heat exchanger for exchanging indoor air with outdoor air. The heat exchanger includes a housing which defines a main body of the heat exchanger and has on both sides thereof an indoor air inlet for introducing the indoor air into the housing and an indoor air outlet for discharging the indoor air from the housing. A first plate is inserted into the housing, and has a thin sheet and a protrusion which is provided along an edge of the thin sheet in such a way as to protrude out and is open at predetermined positions on the protrusion to provide an entrance and an exit. A second plate is placed on the upper or lower portion of the first plate, and has a thin sheet and a plurality of protrusions which protrude along the length of the thin sheet in parallel. Here, a plurality of first and second plates is alternately layered. | 08-05-2010 |
20100200201 | FAN STRUCTURE - A fan structure mainly comprises a fan wheel, a circuit board and a stator. The fan wheel comprising a hub and a plurality of blades is disposed at a fan wheel-disposing area of the circuit board. The fan wheel-disposing area comprises a first disposition area corresponding to the hub and a second disposition area corresponding to the blades. The fan wheel is smaller than the circuit board in size. The stator is disposed at the fan wheel-disposing area, coupled to the fan wheel and electrically connected with a fan-driving circuit of the circuit board. | 08-12-2010 |
20100236765 | FAN ASSEMBLY AND HEAT DISSIPATION DEVICE HAVING THE SAME - A heat dissipation device includes a heat sink, a fan mounted on a top side of the heat sink and a fan holder connecting the heat sink with the fan. The fan includes a blade assembly and a frame enclosing the blade assembly. The fan holder includes a supporting portion engaging with the heat sink. A connecting plate extends upwardly from an edge of the supporting portion. A ridge extends angulately and downwardly from an inner surface of the connecting plate. An operating plate extends downwardly from a bottom end of the connecting plate. The operating plate is pressed inwardly or pulled outwardly to make the ridge of the connecting plate space from or engage with the frame of the fan. | 09-23-2010 |
20100243219 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink, a plurality of fasteners extending through the heat sink, a fan holder mounted on the heat sink and a fan secured on the fan holder. The heat sink includes multiple claws to retain the fasteners therein. The fan holder includes a hoop surrounding the heat sink and a bracket supporting the fan. A plurality of sleeves are formed on the hoop and aligned with the claws of the heat sink, to thereby guide a tool to manipulate the fasteners to secure the heat sink to a printed circuit board. | 09-30-2010 |
20100319886 | HEAT DISSIPATING ASSEMBLY - A heat dissipating assembly includes a heat exchanger and an air duct. The heat exchanger includes a plurality of fins aligned in a row, and the fins cooperatively define a plurality of heat dissipating channels. A guiding slot is defined in the heat exchanger. The air duct defines a passage. A positioning hook extends from the air duct and engages in the guiding slot to so that the air duct passage and are aligned with the heat dissipating channels so that an air flow is capable of passing through the air duct passage via the heat dissipating channels. | 12-23-2010 |
20110005734 | VEHICULAR AIR CONDITIONING APPARATUS - In a vehicular air conditioning apparatus, a first blower unit is connected by a connection duct to a side portion of a casing constituted by respective air passages. On a lower portion of the casing, the first blower unit is connected together with a second blower unit. As a result of a controller controlling driving of an ventilation switching damper, based on a load voltage to a second blower fan of the second blower unit, a first front passage and a first rear passage are placed in communication, whereby a portion of the air from the first blower unit passes through the first front passage, a communication opening, and the first rear passage, and is supplied to a second cooling section of an evaporator, such that when the second blower fan is rotated at a low speed, freezing of water droplets in the second cooling section is avoided. | 01-13-2011 |
20110073289 | LOW PROFILE BLOWER RADIAL HEATSINK - A cooling device, such as for cooling a chip and socket may have a centrifugal blower outside of a radial heatsink. In addition, supports for coupling the blower to a center motor may comprise overhead fan blades effectively creating a radial fan in series with the blower to maximize airflow and pressure capability and to minimize the noise. The vertical location of blower may further allow to improve motherboard component as well as system cooling all while reducing the vertical profile of the cooling device. | 03-31-2011 |
20110277971 | AIR CONDITIONER - An air conditioner is provided. A location of, an angle between, or a distance between, a heat exchanger and a blower may be varied based on whether or not the air conditioner is operating. A number of drivers for moving the heat exchanger and/or the blower may be reduced and reliability of the driver be enhanced. Size of the air conditioner may be reduced, and efficiency may be improved. | 11-17-2011 |
20110297357 | ADJUSTABLE LOOP ROTOR AIR COOLER AND FUEL GAS HEATER - A cooling system for turbine engines for controlling cooling of rotor cooling air and heating of fuel gas is disclosed. The cooling system may be formed from a housing formed from a main plenum, a rotor air cooler positioned at least partially in the main plenum and a fuel gas heater positioned at least partially in the main plenum downstream from rotor air cooler. The cooling system may include a by-pass plenum for returning used cooling air back to a region upstream of the rotor air cooler. An exhaust fluid control device may control fluid flow out of the first exhaust opening at the second end of the main plenum, and a by-pass fluid control device may control fluid flow into the by-pass inlet opening of the by-pass plenum. The control devices and a fan may control circulation of cooling fluids through the main plenum. | 12-08-2011 |
20120055656 | TURBO FAN AND AIR CONDITIONER WITH TURBO FAN - A turbo fan includes a main plate for rotation in a rotational direction about a rotational axis and a plurality of blades arranged at intervals around the rotational axis of the main plate. At least one blade includes: a first blade section having a leading end and a trailing end; a second blade section having a leading end and a trailing end, wherein the first blade section is between the main plate and the second blade section; and a third blade section having a leading end and a trailing end, wherein the third blade section is between the first blade section and the second blade section. | 03-08-2012 |
20120152504 | HANDHELD POWER TOOL WITH AIR-GUIDING ELEMENT - A handheld power tool, including a housing wall and a fan device with an air intake and an air outlet in the housing wall. The fan device has an air guide, and an outflow space is delimited between, on the one hand, the housing wall at the air outlet and, on the other hand, an outflow side of the air intake, as well as laterally by a first surface contour and by a second surface contour of the air guide. The first surface contour and the second surface contour each extend from the housing wall to the outflow side of the air-intake means, and the air-guiding element is shaped in such a way that the size of the cross-sectional surface of the outflow space increases continuously crosswise to the outflow direction of the air intake in the outflow direction. | 06-21-2012 |
20130168065 | FIXING DEVICE FOR FAN - A fixing device for fixing a fan includes a support and a number of fastening members. The fan includes two opposite sidewalls each defining a number of fixing holes. The support includes a fixing plate defining a vent area and a number of slots located around the vent area. Each fastening member includes a sleeve member and an inserting member. The sleeve member is inserted into the corresponding slot of the fixing plate and extended through the corresponding fixing hole of one of the sidewalls of the fan. The inserting member is extended through the corresponding fixing hole of the other sidewall of the fan, to engage with the sleeve. A first block protrudes from the sleeve to abut against the fixing plate. A second block protrudes from the inserting pole to abut against the other sidewall of the fan. | 07-04-2013 |
20130168066 | ENCLOSURE WITH AIRFLOW GUIDING DUCT - An enclosure includes a chassis and an airflow guiding duct. The chassis includes a bottom plate and a rear plate connected to the bottom plate. The bottom plate defines two cutouts providing a pivot point. Two latch pieces with holes are located on the rear plate. The airflow guiding duct pivots on the bottom plate cutouts. Resilient pieces extend from each sidewall of the guiding duct. Each of the two resilient pieces is engaged in the latch holes, to secure the airflow guiding duct to the chassis. Each of the two resilient pieces is deformable to allow quick disengagement from the latch hole, to release the airflow guiding duct. | 07-04-2013 |
20130186603 | THERMAL MODULE WITH AIRFLOW GUIDING FUNCTION - A thermal module includes a fan device having a fan and a fan housing for covering the fan. A vent is disposed on the fan housing. The thermal module further includes an airflow guiding device installed on the fan housing in a protrudable manner and disposed on a side of the vent for guiding airflow into the vent. | 07-25-2013 |
20130192802 | THERMAL MODULE WITH AIRFLOW GUIDING FUNCTION - A thermal module includes a fan device having a fan and a fan housing for covering the fan. A vent is disposed on the fan housing. The thermal module further includes an airflow guiding device attached to the fan housing and disposed on a side of the vent for guiding airflow into the vent. | 08-01-2013 |
20130319641 | HEAT DISSIPATING MODULE - A heat dissipating module disposed at a motherboard includes a fan, a air guiding cover, a first fin set and a second fin set. The fan provides cool air and is disposed in the air guiding cover. The air guiding cover includes a first air outlet, a second air outlet and an air guiding part connected between the first air outlet and the second air outlet. The first fin set is disposed at an upper surface of the motherboard and includes a plurality of first fins. The first air outlet covers at least a part of the first fins. The second fin set is disposed at a bottom surface opposite to the upper surface and extends to a side edge of the motherboard. The second fin set includes a plurality of second fins located beside the side edge, and the second air outlet covers the second fins. | 12-05-2013 |
20130319642 | CENTRIFUGAL BLOWER WITH COOLING FUNCTION - A centrifugal blower with a cooling function includes an impeller, a scroll casing, and an evaporator. The impeller includes a plurality of blades provided around a rotary shaft and blows out in a radially outward direction air taken in along the axial direction of the rotary shaft. The scroll casing accommodates the impeller, and has an intake port, a spiral air passage, and a discharge port. The evaporator is disposed in the air passage of the scroll casing. The evaporator includes a plurality of refrigerant passage members which are stacked in the longitudinal direction of the rotary shaft of the impeller and each of which has a refrigerant flow channel. An air-passing clearance is provided between adjacent refrigerant passage members. The centrifugal blower with a cooling function is used for a vehicle air conditioner. | 12-05-2013 |
20140083658 | AIR CONDITION SYSTEM - An air condition system includes a casing, a first heat exchanger, a fan and a second heat exchanger. A host is held by the casing. The first heat exchanger is disposed inside the casing. Air flows into the casing, and is processed by the first heat exchanger. Then, the air processed by the heat exchange procedure flows forward the host. The fan exhausts the air passing through the host. The second heat exchanger disposed on the fan and inside the casing. The air exhausted by the fan is processed by the second heat exchanger, and flows out of the casing by wind force of the fan. | 03-27-2014 |
20140151000 | OPENINGS IN A BLOWER HOUSING FOR NOISE REDUCTION - A fan arrangement for a heat exchanger of a motor vehicle, a system for a motor vehicle, and a motor vehicle. A fan is arranged downstream of the heat exchanger in an air supply direction. The fan is arranged in a fan cowling which covers an air passage area of the heat exchanger and which is arranged spaced from the heat exchanger in an axial direction and coupled to the heat exchanger via a sealing part. A plurality of air passages having openings are arranged opposite each other in the sealing part. The dimensions of the air passage openings in a direction perpendicular to the air supply direction, in relation to the peripheral area of the sealing part, is at least a factor of 0.025 of the diameter of the fan, and the dimensions of the air passage openings in the direction of the air supply, is at least 0.0025 of the diameter of the fan. | 06-05-2014 |
20140166247 | AIR DUCT AND HEAT DISSIPATION DEVICE HAVING THE SAME - An air duct mounted to a fan having an end board includes a top board which defines an opening, through which the fan is extended. Two opposite blocking members extend up from the top board at opposite first sides of the opening. Two opposite limiting members extend up from the top board at opposite second sides of the opening. Each blocking member includes a tab to block a top of the end board of the fan. Each limiting member includes a projection to abut a bottom of the end board of the fan. | 06-19-2014 |
20140182822 | HEAT DISSIPATION MODULE - A heat dissipation module includes an encasing structure, a fan impeller mounted in the encasing structure, a heat dissipation piece, and a bearing. The fan impeller includes a mounting post and a plurality of fan blades surrounding the post. The heat dissipation piece is mounted in a base plate of the encasing structure and configured for directly contacting with a heat generating component. The bearing is mounted on the heat dissipation piece. The mounting post is pivotably mounted in the bearing. The fan impeller is capable of dissipating heat generated by the heat generating component when the mounting post is rotating in the bearing. | 07-03-2014 |
20140190671 | Fluid Pre-Heating Assembly - A fluid pre-heating assembly includes a housing that may be positioned on a support surface. A tank is positioned within the housing so the tank may contain a fluid. A fan motor is coupled to the housing. A fan is operationally coupled to the fan motor so the fan may draw air over the tank. | 07-10-2014 |
20140311717 | HEAT DISSIPATION DEVICE - A heat dissipation device includes a heat sink, a fan including a fixing member, and a positioning member. The heat sink includes a supporting portion and a number of fins. The supporting portion defines a positioning hole including an access hole and a locking hole communicating with the access hole. The positioning member includes a neck connected to a bottom of the fan, and a head connected to a bottom end of the neck and having a diameter greater than a diameter of the neck. When fixing the fan, the head extends through the access hole, the fan is slid to move the neck into the locking hole, and the fixing member is fixed to the heat sink. | 10-23-2014 |
20140326437 | OUTDOOR UNIT FOR AIR CONDITIONING DEVICE - An outdoor unit for an air conditioning device includes an outdoor unit main body, a heat exchanger, a fan provided in an upper part of the outdoor unit main body, the fan blowing out the air taken in from a side surface of the outdoor unit main body upward, a ventilating member surrounding an outer circumference of the fan and forming a blow-out port, and an electric component unit accommodated in the outdoor unit main body and arranged in an opening portion between one side end portion and the other side end portion of the heat exchanger, wherein the electric component unit is provided so as to cross over a lower end of the ventilating member in the up and down direction, and on the upper side than the lower end of the ventilating member, the electric component unit is arranged on the horizontally outer side than the ventilating member. | 11-06-2014 |
20150329125 | AIR COMPRESSOR UNIT FOR VEHICLE - An air compressor unit for vehicle ( | 11-19-2015 |
20160003487 | Propeller Fan and Air Conditioner Equipped with the Same - In order to suppress that a velocity in the vicinity of a bell mouth is lowered to induce non-uniformity in velocity at an outlet of a blade and an outlet of the bell mouth caused by adoption of a forward-swept blade which makes a tip vortex small as means for noise reduction, in a blade of a propeller fan, a trailing edge portion which has been rotationally projected on a plane passing through a rotational axis is formed from the rotational axis toward a blade tip portion so as to bend from the suction side to the discharge side with a first curvature, and is further formed so as to bend with a second curvature which is smaller than the aforementioned first curvature with an inflection point interposed. | 01-07-2016 |
20160076782 | TEMPERATURE REGULATING DEVICE FOR FAN - A temperature regulating device, which is installed with an electric fan, comprises an air-compressing member for outputting a compressed gas, a vortex tube, a hot gas accelerating member, a cold gas accelerating member, and an outputting member. The compressed gas is received by the vortex tube. The compressed gas flowing through the vortex tube is discharged from the hot gas outlet as a hot gas of the vortex tube and is discharged from the cold gas outlet as a cold gas of the vortex tube. The hot gas accelerating member is converged the hot gas and the compressed gas to discharge a high-speed hot gas from the hot gas export outlet. The cold gas accelerating member is converged the cold gas and the compressed gas to discharge a high-speed cold gas from the cold gas export outlet. The high-speed hot gas and the high-speed cold gas in a predetermined ratio are mixed by the outputting member as temperature-adjusted gas to flow from the temperature adjustment gas outlet to an air supply channel of the electric fan so as to adjust temperature of outflowing air of the electric fan. | 03-17-2016 |
20160084266 | Air Handling Unit That Eliminates Corner Singularities and Eddies for High Energy Efficiency and Its Evaporator Heat Exchanger Coil Arrangements - An air handling unit with a cross-sectional profile of continuous curvature eliminates corner singularities and eddies for high energy efficiency in comparison to rectangular air handling units. A housing has an outer shell, an inner shell, and an insulation shell between the outer and inner shells. A blower and motor assembly forces air through an air intake opening over a heat exchanger, and out through an air discharge opening. An upper door and a lower door in the wall of the housing allow maintenance access to the blower and motor assembly and the heat exchanger. Three heat exchanger coil arrangements are also disclosed: an A-coil arrangement, a parallel coil arrangement, and a circular coil arrangement. | 03-24-2016 |
20160095251 | HEAT DISSIPATION DEVICE AND METHOD FOR MANUFACTURING THE SAME - The heat dissipation device includes a heat absorbing base and a fan mounted on the heat absorbing base. The heat absorbing base includes a first surface configured for contacting a heat generating element, and a second surface opposite to the first surface. The fan includes a bearing and a rotor pivotally coupled with the bearing. The bearing is mounted on the second surface of the heat absorbing base. | 03-31-2016 |
20160102871 | CEILING-EMBEDDED AIR CONDITIONER - A ceiling-embedded air conditioner includes: a ceiling-embedded casing body that has an air suction path at the center of a lower surface and has an air blowoff path around the air suction path; a turbo fan that is disposed inside the casing body; a heat exchanger that is disposed inside the casing body on an outer peripheral side of the turbo fan; a bell-mouth that guides air sucked from the air suction path toward the inside of the turbo fan; and a rectifier that is provided on a back surface side of the bell-mouth at the air suction path side opposite to an air suction surface of the bell-mouth, the rectifier suppressing swirling airflows generated by part of air blown from the turbo fan swirling along the back surface of the bell-mouth in the same direction as a rotation direction of the turbo fan. | 04-14-2016 |
20160102872 | CEILING-EMBEDDED AIR CONDITIONER - A ceiling-embedded air conditioner includes: a ceiling-embedded casing body; a turbo fan disposed inside the casing body; a heat exchanger disposed inside the casing body on an outer peripheral side of the turbo fan; and an electrical equipment box disposed along a part of the heat exchanger at the upstream side of a ventilation direction. The casing body has a square shape with first to fourth side plates. The heat exchanger has first to fourth heat exchange portions bent along the first to fourth side plates respectively. An end portion of the first heat exchange portion and an end portion of the fourth heat exchange portion are disposed at a corner for tube connection out of the four corners of the casing body. The electrical equipment box is disposed to extend from the corner for tube connection toward the first heat exchange portion and the fourth heat exchange portion. | 04-14-2016 |
20160116173 | AIR-CONDITIONING UNIT - An air-conditioning unit for air-conditioning an air flow may include a multipart housing including a first housing part and a second housing part arranged on top of the first housing part. The housing may further include an air-conditioning segment and a blower segment defining an axis of rotation. The blower segment may have a blower for driving the air flow. A suction chamber and a pressure chamber may be disposed in the blower segment, and the suction chamber and the pressure chamber may be open with respect to one another via a connecting opening. The blower may have an impeller arranged in the connecting opening. The impeller may include a suction side facing towards the suction chamber and a pressure side facing towards the pressure chamber. The housing may further include a connecting duct for fluidically connecting the blower segment to the air-conditioning segment. | 04-28-2016 |
20160123350 | ICY COLD FAN UNIT - The fan unit of the present invention comprises a main body, a fan, an ice crate and a water collector. The main body comprises an internal space, an opening and a cover. A plurality of air inlets are provided on the main body. The fan is fixedly disposed in a front portion of the main body and is in communication with the internal space. In use, air is let in through the air inlets and then is cooled by the ice cubes. Next, the cooled air is blown out by the fan. Ice cubes are placed in the ice crate. In this manner, as the ice cubes melt, ambient air would be cooled down via convection and then the cooled air is blown out by the fan. In addition, a set of wheels are provided under the main body to allow the main body to move around easily. | 05-05-2016 |
20160123605 | AIR CONDITIONER - An air conditioner includes: a suction body having an air suction hole formed therein; a heat exchanger in which air sucked into the air suction hole is heat-exchanged; and a pair of blow discharge units through which the air heat-exchanged in the heat exchanger is passed and discharged. In the air conditioner, each of the pair of blow discharge units includes: a discharge body in which an air inflow hole and an air discharge hole are formed to be spaced apart from each other, and a discharge passage is formed between the air inflow hole and the air discharge hole; a rotation mechanism for rotating the discharge body about a vertical center axis; a cross flow fan rotatably positioned in the discharge passage, the cross flow fan being disposed vertically long in the discharge passage; and a fan motor having a vertical rotational shaft for rotating the cross flow fan. When the cross flow fan is mounted between the discharge body and the heat exchanger, the air conditioner can become more compact, and the utilization of space between the discharge body and the heat exchanger can be enhanced. | 05-05-2016 |
20160131369 | AIR CONDITIONER - An air conditioner includes a main body including a housing having a front surface with an opening, a heat exchanger disposed in the housing, and at least one fan disposed in front of the heat exchanger and configured to discharge air that exchanges heat through the heat exchanger through the opening, and a frame disposed below the main body and configured to support the main body, wherein the main body is disposed to be inclined backward at a preset angle. | 05-12-2016 |
20160131371 | OUTDOOR UNIT FOR AN AIR-CONDITIONING DEVICE - Provided is an outdoor unit for an air-conditioning apparatus, including a heat exchanger having heat exchanger cores stacked in a plurality of stages in a vertical direction of the outdoor unit. Each of the heat exchanger cores includes: a plurality of fins arranged in parallel to each other at intervals therebetween; and heat transfer tubes provided to extend through the fins, through which refrigerant is caused to flow. Each of the fins of the heat exchanger includes a deformable portion configured to be deformable by impacts applied to the deformable portion, which is formed at a position where the fins of the upper one of the heat exchanger cores from among the vertically-adjacent heat exchanger cores comes into contact with the fins of the lower one of the heat exchanger cores from among the vertically-adjacent heat exchanger cores. | 05-12-2016 |
20160252259 | Indoor Unit of Air Conditioner and Air Conditioner Including the Same | 09-01-2016 |
20180023822 | INDOOR UNIT AND AIR-CONDITIONING APPARATUS | 01-25-2018 |
20190145636 | BLOWER AND OUTDOOR UNIT OF AIR CONDITIONER HAVING THE SAME | 05-16-2019 |
165124000 | Verging gas flow | 2 |
165126000 | Single inlet, plural outlets | 2 |
20090114377 | Air Conditioner - A centrifugal blower is arranged in the casing so as to extend its axis of rotation along the depth direction of an air conditioner. A pair of heat exchangers are arranged on the right and left sides of the centrifugal fan so as to superimpose on the centrifugal fan when viewed from the direction perpendicularly intersecting the axis of rotation of the centrifugal fan. In other words, each heat exchanger is arranged symmetrically with respect to a vertical plane including the axis of rotation of the centrifugal fan. Accordingly, the centrifugal fan and the heat exchanger do not overlap in the depth direction of the air conditioner in the casing. Thus, the air conditioner can be made compact in the depth direction. | 05-07-2009 |
20100218920 | System And Method For Airflow Dividers For Use With Cooling Systems For An Equipment Enclosure - A cooling system that has a fan having a plurality of fan blades disposed in a housing, with the fan having an input side and an exhaust side. A flow divider component may be disposed parallel to an axial center of the fan and positioned adjacent to the housing of the fan, and adjacent to one of the input side or the exhaust side. The flow divider may further project away from the fan blades for channeling an air flow created by the fan blades. | 09-02-2010 |