EP2597316B1 - Ventilateur à courants croisés et climatiseur - Google Patents

Ventilateur à courants croisés et climatiseur Download PDF

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Publication number
EP2597316B1
EP2597316B1 EP12192835.2A EP12192835A EP2597316B1 EP 2597316 B1 EP2597316 B1 EP 2597316B1 EP 12192835 A EP12192835 A EP 12192835A EP 2597316 B1 EP2597316 B1 EP 2597316B1
Authority
EP
European Patent Office
Prior art keywords
cross flow
flow fan
blade
protrusion
outer edge
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Active
Application number
EP12192835.2A
Other languages
German (de)
English (en)
Other versions
EP2597316A2 (fr
EP2597316A3 (fr
Inventor
Jeongtaek Park
Deok Huh
Jaehyuk Jung
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
LG Electronics Inc
Original Assignee
LG Electronics Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from KR1020110122220A external-priority patent/KR101883502B1/ko
Priority claimed from KR1020110122218A external-priority patent/KR101826359B1/ko
Application filed by LG Electronics Inc filed Critical LG Electronics Inc
Publication of EP2597316A2 publication Critical patent/EP2597316A2/fr
Publication of EP2597316A3 publication Critical patent/EP2597316A3/fr
Application granted granted Critical
Publication of EP2597316B1 publication Critical patent/EP2597316B1/fr
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D29/00Details, component parts, or accessories
    • F04D29/26Rotors specially for elastic fluids
    • F04D29/28Rotors specially for elastic fluids for centrifugal or helico-centrifugal pumps for radial-flow or helico-centrifugal pumps
    • F04D29/281Rotors specially for elastic fluids for centrifugal or helico-centrifugal pumps for radial-flow or helico-centrifugal pumps for fans or blowers
    • F04D29/282Rotors specially for elastic fluids for centrifugal or helico-centrifugal pumps for radial-flow or helico-centrifugal pumps for fans or blowers the leading edge of each vane being substantially parallel to the rotation axis
    • F04D29/283Rotors specially for elastic fluids for centrifugal or helico-centrifugal pumps for radial-flow or helico-centrifugal pumps for fans or blowers the leading edge of each vane being substantially parallel to the rotation axis rotors of the squirrel-cage type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D17/00Radial-flow pumps, e.g. centrifugal pumps; Helico-centrifugal pumps
    • F04D17/02Radial-flow pumps, e.g. centrifugal pumps; Helico-centrifugal pumps having non-centrifugal stages, e.g. centripetal
    • F04D17/04Radial-flow pumps, e.g. centrifugal pumps; Helico-centrifugal pumps having non-centrifugal stages, e.g. centripetal of transverse-flow type
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D29/00Details, component parts, or accessories
    • F04D29/26Rotors specially for elastic fluids
    • F04D29/28Rotors specially for elastic fluids for centrifugal or helico-centrifugal pumps for radial-flow or helico-centrifugal pumps
    • F04D29/30Vanes
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04DNON-POSITIVE-DISPLACEMENT PUMPS
    • F04D29/00Details, component parts, or accessories
    • F04D29/66Combating cavitation, whirls, noise, vibration or the like; Balancing
    • F04D29/661Combating cavitation, whirls, noise, vibration or the like; Balancing especially adapted for elastic fluid pumps
    • F04D29/666Combating cavitation, whirls, noise, vibration or the like; Balancing especially adapted for elastic fluid pumps by means of rotor construction or layout, e.g. unequal distribution of blades or vanes

Definitions

  • the present disclosure relates to a cross flow fan and an air conditioner.
  • an air conditioner is a device that cools or heats indoor space.
  • the air conditioner includes a compressor compressing refrigerants, a condenser condensing the refrigerants discharged from the compressor, an expander expanding the refrigerants having passed through the condenser, and an evaporator evaporating the refrigerants expanded in the expander.
  • the condenser and the evaporator in the air conditioner are installed in an outdoor unit or an indoor unit and function as a heat exchanger for heat exchanging between the refrigerants and outside air.
  • the indoor unit when installed with the heat exchanger, may include a cross flow fan at one side thereof.
  • the cross flow fan includes a circular plate and a plurality of blades provided on the circular plate.
  • the cross flow fan serves to discharge introduced air in a radial direction. That is, the cross flow fan may introduce outside air into the indoor unit to cause the air to exchange heat with refrigerants flowing through the heat exchanger, and discharge the air out of the indoor unit.
  • EP 2 003 340 A2 relates to a multi-blade fan provided with a plurality of notches in a blade edge in an outer side of each impeller blade.
  • US 5,169,290 relates to a blade for a centrifugal flow fan having forward curved blades, wherein the blade has a boundary layer trip on its pressure surface.
  • US 5,064,346 relates to an impeller of a multiblade blower having at least two circular end plates or partition plates spaced apart from each other, and a plurality of blades disposed between the peripheral portions of the partition plates.
  • Each of the blades is formed with a cylindrical portion having a uniform cross-sectional area, at the outer peripheral end thereof on the outer peripheral side of the impeller.
  • the cylindrical portion has a diameter which is larger than the thickness of the blade at the outer peripheral end thereof so that the cylindrical portion is projected from both front and rear surfaces of the blade at the outer peripheral end of the latter.
  • the disclosure provides a cross flow fan and an air conditioner, capable of achieving reduction in noise and improvement in discharge efficiency by having a protrusion at one end of a blade.
  • a cross flow fan includes a fixing member; and a plurality of blades fixed to a surface of the fixing member and spaced apart from each other in a circumferential direction, wherein one or more of the blades have a protrusion at one end portion thereof, the protrusion protruding in a downward direction from a surface of the blade.
  • an air conditioner in another example, includes a heat exchanger provided inside a case; a cross flow fan disposed at one side of the heat exchanger, the cross flow fan including a plurality of blades; and a flow path guide disposed in the vicinity of an outer circumferential surface of the cross flow fan, wherein an outer edge portion of one or more of the blades include a protrusion protruding in a downward direction from a surface of the blade.
  • a cross flow fan comprising: a fixing member; and a plurality of blades fixed on a surface of the fixing member and spaced apart from each other in a circumferential direction, the blades having an inner edge and an outer edge, wherein one or more of the blades have a protrusion at one end portion thereof, the protrusion protruding in a downward direction from a surface of the blade.
  • the protrusion extends in a length direction of the one or more blades.
  • the protrusion protrudes from the outer edge of the blade.
  • an outer surface of the protrusion facing outwardly of the cross flow fan may be smoothly connected to an outer edge surface of the blade.
  • the outer surface of the protrusion may be connected to the outer edge surface of the blade in the form of a curved surface.
  • an inner surface of the protrusion facing inwardly of the cross flow fan may be in a form of a flat surface inclined with respect to a lower surface of the blade at a predetermined angle.
  • angle defined by the inner surface of the protrusion and the lower surface of the cross flow fan may be an acute angle.
  • the protrusion may be in the form of a curved shape protruding in the downward direction from a surface of the blade.
  • the blade may have a thickness that decreases in a direction from the inner edge toward the outer edge.
  • the inner edge may have a thickness equal to the sum of a thickness of the outer edge and a thickness of the protrusion.
  • an outer edge portion of the one or more of the blades includes a plurality of projections protruding in an outward direction of the cross flow fan.
  • an end portion of one or more of the projections may be in a form of a curved surface.
  • the protrusion extends in a length direction of the blade.
  • the plurality of projections is spaced apart from each other at a predetermined interval in the length direction of the blade.
  • a thickness of the projections attached to the one or more blades is equal or smaller than a sum of a thickness of the outer edge portion of the blade and a thickness of the protrusion.
  • the one or more of the projections have a width that decreases in a direction toward an end portion thereof.
  • Fig. 1 is a cross-sectional view illustrating an air conditioner according to a first example.
  • an air conditioner 1 includes a case 10, a heat exchanger 20, a fan 100, and a flow path guide 30.
  • this part of the air conditioner 1 may be referred to as an indoor unit.
  • the case 10 may include a front intake part 11 at its front side, and an upper intake part 12 at an upper side thereof.
  • the front intake part 11 and the upper intake part 12 may be provided with a filter 13 for filtering introduced air.
  • the filter 13 may be disposed at the front and upper sides of the case 10 so as to cover the front intake part 11 and the upper intake part 12. In this case, the filter 13 may be fixedly or detachably mounted at the front side of the case 10.
  • the case 10 may include an air discharge part 14 at its lower side.
  • the air discharge part 14 may be provided with a discharge louver 15 which can control the direction in which air is discharged.
  • the discharge louver 15 may be controlled to close the air discharge part 14.
  • the heat exchanger 20 is disposed inside the case 10 and serves for heat exchange between outside air and refrigerants.
  • the heat exchanger 20 may be a fin-tube heat exchanger that includes a refrigerant tube in which refrigerants flow, and a plurality of heat exchange fins through which the refrigerant tube passes.
  • the heat exchanger 20 is disposed to surround the intake side of the fan 100.
  • the heat exchanger 20 includes a plurality of heat exchange parts 21, 22 and 23 arranged in bent fashion.
  • the heat exchange parts 21, 22 and 23 are disposed to surround the intake side of the fan 100. Accordingly, in this example, a heat exchanger 20 with a relatively large size, which is bent in multiple places, can be installed in a space provided by the indoor unit, thus increasing heat-exchange capacity.
  • the heat exchanger 20 may be formed as a single bent body.
  • the air introduced into the case 10 can be cooled or heated through heat exchange with refrigerants flowing along the refrigerant tube while passing through the heat exchange parts 21, 22 and 23. Thereafter, the cooled or heated air is discharged to the indoor space through the air discharge part 14 to thereby create an indoor environment desired by a user.
  • the fan 100 is disposed at one side of the heat exchanger 20.
  • the fan 100 may be a cross flow fan 100 that discharges radially introduced air in the radial direction.
  • the cross flow fan 100 is formed by coupling a plurality of fan units (not shown) in a length direction.
  • Each of the fan units includes a fixing member 120 having a disk shape, and a plurality of blades 110 fixed on a surface of the fixing member 120 and spaced apart from each other in a circumferential direction. That is, the cross flow fan 100 is formed with the plurality of blades 110 arranged in the circumferential direction.
  • the blades 110 of the cross flow fan 100 will be described later in detail.
  • the flow path guide 30 is disposed in the vicinity of the outer circumferential surface of the cross flow fan 100, and guides the flow of air. That is, the flow path guide 30 guides smooth air intake and discharge of the cross flow fan 100.
  • the flow path guide 30 may include a rear guide 31 and a stabilizer 32.
  • the rear guide 31 extends from the rear side of the case 10 toward the intake side of the cross flow fan 100. Such a rear guide 31 allows introduced air to be smoothly guided toward the cross flow fan 100 which is in rotation. Also, the rear guide 31 can minimize the separation of air from the cross flow fan 100.
  • the stabilizer 32 is disposed at the discharge side of the cross flow fan 100.
  • the stabilizer 32 is spaced apart from the outer circumferential surface of the cross flow fan 100 so as to prevent air discharged from the cross flow fan 100 from flowing back toward the heat exchanger 20.
  • the rear guide 31 and the stabilizer 32 are disposed along the length direction of the cross flow fan 100. Also, the rear guide 31 and the stabilizer 32 are spaced apart from the outer circumferential surface of the cross flow fan 100 at a predetermined distance.
  • the cross flow fan 100 guides the air to flow from the rear guide 31 side toward the discharge side.
  • the stabilizer 32 prevents the air discharged from the cross flow fan 100 from being introduced toward the heat exchanger 20 side, so that the air of the air discharge part 14 can be smoothly discharged to the indoor space.
  • Fig. 2 is a perspective view illustrating a blade according to the first example
  • Fig. 3 is a partially enlarged view of Fig. 2 .
  • a line extending in the length direction of each blade 110 is defined as a span S, and the height of the blade 110 which is perpendicular to the span S is defined as a chord C.
  • the inner end along the length (span S) direction of the blade 110 is defined as an inner edge 111, and an outer end along the length (span S) direction of the blade 110 is defined as an outer edge 112.
  • the inner edge 111 faces inwardly of the cross flow fan 100 while the outer edge 112 faces outwardly of the cross flow fan 100.
  • the inner edge 111 and the outer edge 112 may each have a rounded section.
  • the inner edge 111 of the blade 110 may be disposed parallel or substantially parallel to the rotation axis of the cross flow fan 100.
  • the blade 110 may have a difference in thickness between the inner edge 111 and the outer edge 112. That is, the blade 110 may be provided such that the thickness thereof gradually decreases from the inner edge 111 toward the outer edge 112.
  • Each blade 110 has a protrusion 113 at one end, the protrusion 113 protruding from a lower surface of the blade 110, that is, in a downward direction.
  • the protrusion 113 may reduce the generation of vortexes when air is discharged.
  • the protrusion 113 may be provided at the outer edge 112 of the blade 110, and may extend in the length direction of the blade 110.
  • the sum of the thickness of the outer edge 112 and the protrusion thickness of the protrusion 113 may be equal to the thickness of the inner edge 111. This is to make the intake and discharge of the air smooth.
  • the blade 110 When air passing through the center of the cross flow fan 100 flows along the lower surface of the blade 110, vortexes may be generated in the stream of air between the flow path guide 30 and the blade 110.
  • the protrusion 113 provided at the blade 110 divides the vortexes into small pieces and thus may prevent irregular air flow caused by the vortexes. Accordingly, the blade 110 allows the air introduced through the front and upper intake parts 11 and 12 to be smoothly discharged along the air discharge part 14, and may increase the discharge flow rate.
  • the outer surface 113a of the protrusion 113 facing outwardly of the cross flow fan 100 may be smoothly connected to the outer edge 112 surface of the blade 110. That is, the outer surface 113a of the protrusion 113 may be connected to the outer edge 112 surface of the blade 110 in the form of a curved surface. This is to prevent the intake flow rate from being lowered by the protrusion 113 when air is introduced through the outer surface 113a of the protrusion 113.
  • the inner surface 113b of the protrusion 113 facing inwardly of the cross flow fan 100 may be in the form of a flat plane inclined with respect to the lower surface of the blade 110 at a predetermined angle.
  • the predetermined angle may be any angle that provides for a desired effect.
  • an angle defined by the inner surface 113b of the protrusion 113 and the lower surface of the cross flow fan 100 may be an acute angle.
  • vortexes may be generated in the space between the lower surface of the blade 110 and the protrusion 113 when air is introduced along the outer edge 112 of the blade 110.
  • the protrusion 113 may serve to reduce vortexes. That is, the protrusion 113 may reduce vortexes in the air being discharged while generating them in the air being introduced.
  • the overall efficiency may be sufficiently increased by adjusting vortexes generated in the discharge area although vortexes may be generated in the intake area.
  • Fig. 4 is a view showing a graph illustrating performance comparison between cross flow fans according to the first example and the related art.
  • the horizontal axis represents flow rates
  • the vertical axis represents static pressure.
  • the related art which is a comparative example, is associated with a cross flow fan using a blade without the protrusion 113.
  • the driving RPM of this example is equal to that of the related art, and the cross flow fan according to this example is indicated using a solid line, and the related art is indicated using a dotted line.
  • the cross flow fan 100 according the first example shows higher static pressure at the same flow rate, and shows a higher flow rate at the same static pressure when the static pressure is above set value. That is, as compared to the related art, the present example can achieve an overall improvement in flow rate and static pressure performance by using the protrusion 113 to control vortexes in the discharge area.
  • Fig. 5 is a perspective view illustrating a blade according to a second example
  • Fig. 6 is a partially enlarged view of Fig. 5 .
  • the blade 110 according to the second example may include a protrusion 113 protruding downwardly from the outer edge 112 of the blade 110 as in the first example.
  • the protrusion 113 according to the second example may be curved protrusion protruding downwardly of the blade 110. This is to reduce the generation of vortexes in the intake area.
  • the outer surface 113a of the protrusion 113 may be connected to the outer edge 112 of the blade 110 in the form of a curved surface.
  • both the inner and outer surfaces 113b and 113a of the protrusion 113 are provided in the form of a curved surface protruding in the downward direction. In this case, the effect of dividing vortexes in the discharge area is lowered as compared to the first example; however, the amount of vortexes generated in the intake area may be reduced.
  • Fig. 7 is a perspective view of a blade according to an embodiment
  • Fig. 8 is a partially enlarged view of Fig. 7 .
  • each blade may include the protrusion 113 protruding in the downward direction, and a plurality of projections 114 protruding outwardly of the cross flow fan 100.
  • the protrusion 113 may be provided in the shape depicted in the first example, but the present embodiment is not intended to limit the shape of the protrusion 113 as above.
  • the projections 114 may reduce noise and increase flow rates by reducing the strength of vortexes in the stream of air being discharged from the cross flow fan 100.
  • the plurality of projections 114 may be spaced apart from each other at a predetermined distance in the length direction of the blade 110.
  • each of the projections 114 may be curved. This is to prevent air resistance caused by the projections 114.
  • the projections 114 may each have a square or rectangular shape when viewed from the upper or lower surface of the blade 110.
  • the projections 114 may each have a trapezoid shape tapered toward the end portion thereof. The shape of the projections is not to interrupt the stream of air being introduced to the cross flow fan 100.
  • the projections 114 may have a thickness that decreases in the direction towards the end portion.
  • each projection 114 at an end attached to the blade 110 is equal to or greater than the thickness in the vicinity of the outer edge 112, and may be smaller than or equal to the sum of the thickness in the vicinity of the outer edge 112 and the protrusion thickness of the protrusion 113.
  • the thickness in the vicinity of the outer edge 112 refers to a thickness of a portion spaced apart from the outer edge 112 at a predetermined distance in an inward direction of the cross flow fan 100.
  • the outer edge 112 of the blade 110 may be thicker than the related art blade 110.
  • the projection 114 may be coupled to the outer edge 112 and the protrusion 113, the thickness of the projection 114 may be greater than the thickness in the vicinity of the outer edge 112 by the thickness of the protrusion 113. That is, in this embodiment, the coupling strength of the projection 114 may be enhanced by expanding the coupling area between the projection 114 and the blade 110 by the use of the protrusion 113.
  • Fig. 9A and 9B are graphs illustrating performance comparison between cross flow fans according to the embodiment and the related art.
  • the horizontal axis represents RPM of a motor driving a fan
  • the vertical axis represents flow rates.
  • the horizontal axis represents flow rates
  • the vertical axis represents noise.
  • the driving RPM of the related art is equal to that of this embodiment.
  • the related art in Figs. 9A and 9B is associated with a cross flow fan 100 using a blade 110 without any protrusion 113 or projection 114 as in Fig. 4 .
  • the present embodiment is indicated using a solid line
  • the related art is indicated using a dotted line.
  • the cross flow fan 100 may ensure higher flow rates than the related art when driven at the same RPM. This means that lower RPM than that of the related art is sufficient to ensure a certain flow rate. Accordingly, the present embodiment may achieve a reduction in power consumption by approximately 5%.
  • this embodiment may achieve a reduction in noise generation when the same flow rate is ensured. Accordingly, when air is introduced and discharged at a predetermined flow rate, the present embodiment may increase a user's satisfaction because noise generation in air flow is reduced.
  • Fig. 10 is a view illustrating a flow of air on a blade according to the embodiment.
  • a plurality of vortexes which flow along the upper surface of the blade can be created in span direction, and also a plurality of vortexes which flow along the projection can be created in span direction.
  • the vortexes which flow along the upper surface may rotate in opposite direction of the vortexes which flow along the projection, such that the vortexes can offset each other. Therefore, the present embodiment may reduce the total strength of the vortexes, and also improve flow rate of air and reduce noise.
  • a protrusion protruding from the outer edge of a blade in a downward direction of the blade may reduce the generation of vortexes and increases the flow rate of the air being discharged, thus enhancing efficiency of a cross flow fan.
  • one surface of the protrusion facing outside the cross flow fan is formed as a curved surface, so that a reduction in an intake flow rate may be prevented when air is introduced by the blade.
  • the outer edge of the blade is provided with a plurality of projections to thereby reduce the strength of vortexes in an air discharge area, and the projections are coupled to the outer edge and the protrusion of the blade so as to ensure a sufficient thickness of the projections, thus having enhanced durability.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Structures Of Non-Positive Displacement Pumps (AREA)

Claims (11)

  1. Ventilateur à flux transversal, comprenant :
    un élément de fixation (120) ; et
    une pluralité de pales (110) fixées sur une surface de l'élément de fixation et espacées l'une de l'autre dans la direction circonférentielle, lesdites pales présentant un bord intérieur (111) et un bord extérieur (112),
    où une ou plusieurs pales sont pourvues sur leur bord extérieur d'une saillie (113) s'étendant vers le bas depuis une surface de la pale, et une pluralité de saillies (114) s'étendant vers l'extérieur du ventilateur à flux transversal,
    où la saillie (113) s'étend dans le sens de la longueur de la pale (110), et
    où les saillies de la pluralité de saillies (114) sont espacées l'une de l'autre d'une distance définie dans le sens de la longueur de la pale (110) et ont une largeur qui diminue dans la direction de leur partie d'extrémité,
    caractérisé en ce que l'épaisseur de la saillie (114) à son extrémité de fixation à la pale (110) est supérieure ou égale à celle du bord extérieur (112), et inférieure ou égale à la somme de l'épaisseur du bord extérieur (112) et d'une épaisseur de la saillie (113).
  2. Ventilateur à flux transversal selon la revendication 1, où la saillie (113) s'étend dans le sens de la longueur de la ou des pales (110).
  3. Ventilateur à flux transversal selon la revendication 1 ou la revendication 2, où la saillie (113) s'étend depuis le bord extérieur de la pale (110).
  4. Ventilateur à flux transversal selon l'une des revendications 1 à 3,
    où une surface extérieure de la saillie (113) dirigée vers l'extérieur du ventilateur à flux transversal est raccordée de manière homogène à une surface de bord extérieur de la pale (110).
  5. Ventilateur à flux transversal selon la revendication 4, où la surface extérieure (113a) de la saillie (113) est raccordée à une surface de bord extérieur de la pale (110) sous la forme d'une surface courbe.
  6. Ventilateur à flux transversal selon l'une des revendications précédentes, où une surface intérieure (113b) de la saillie (113) dirigée vers l'intérieur du ventilateur à flux transversal a la forme d'une surface plane inclinée suivant un angle défini par rapport à une surface inférieure de la pale (110).
  7. Ventilateur à flux transversal selon la revendication 6, où l'angle défini par la surface intérieure (113b) de la saillie (113) et la surface inférieure du ventilateur à flux transversal est un angle aigu.
  8. Ventilateur à flux transversal selon l'une des revendications 1 à 3,
    où la saillie (113) a une forme courbe s'étendant vers le bas depuis une surface de la pale (110).
  9. Ventilateur à flux transversal selon l'une des revendications précédentes, où la pale (110) a une épaisseur diminuant dans la direction du bord intérieur (111) au bord extérieur (112).
  10. Ventilateur à flux transversal selon la revendication 9, où le bord intérieur (111) a une épaisseur égale à la somme d'une épaisseur du bord extérieur (112) et d'une épaisseur de la saillie (113).
  11. Ventilateur à flux transversal selon l'une des revendications précédentes, où une partie d'extrémité d'une ou de plusieurs saillies (114) a la forme d'une surface courbe.
EP12192835.2A 2011-11-22 2012-11-15 Ventilateur à courants croisés et climatiseur Active EP2597316B1 (fr)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
KR1020110122220A KR101883502B1 (ko) 2011-11-22 2011-11-22 횡류팬 및 공기 조화기
KR1020110122218A KR101826359B1 (ko) 2011-11-22 2011-11-22 횡류팬 및 공기 조화기

Publications (3)

Publication Number Publication Date
EP2597316A2 EP2597316A2 (fr) 2013-05-29
EP2597316A3 EP2597316A3 (fr) 2017-10-25
EP2597316B1 true EP2597316B1 (fr) 2021-01-13

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Application Number Title Priority Date Filing Date
EP12192835.2A Active EP2597316B1 (fr) 2011-11-22 2012-11-15 Ventilateur à courants croisés et climatiseur

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EP (1) EP2597316B1 (fr)
CN (1) CN103133360B (fr)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR102508191B1 (ko) * 2017-11-10 2023-03-09 삼성전자주식회사 공기조화기

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Publication number Priority date Publication date Assignee Title
DE2732680A1 (de) * 1977-07-20 1979-02-01 Standard Elektrik Lorenz Ag Luefterwalze fuer querstromgeblaese
JPH01318798A (ja) * 1988-06-17 1989-12-25 Taiheiyo Kogyo Kk クロスフローファンの羽根車
US5169290A (en) * 1991-11-07 1992-12-08 Carrier Corporation Blade for centrifugal flow fan
JP2001323891A (ja) * 2000-05-16 2001-11-22 Matsushita Electric Ind Co Ltd 貫流ファンとその貫流ファンを備えた空気調和機
CN1237283C (zh) * 2001-01-22 2006-01-18 三电有限公司 用于汽车空调设备的多叶片风机
JP2005120877A (ja) * 2003-10-15 2005-05-12 Haruo Yoshida 横断流送風機用羽根車および横断流送風機
JP2007205268A (ja) * 2006-02-02 2007-08-16 Daikin Ind Ltd 遠心ファン
JP4973249B2 (ja) * 2006-03-31 2012-07-11 ダイキン工業株式会社 多翼ファン

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Title
None *

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Publication number Publication date
CN103133360B (zh) 2015-10-28
EP2597316A2 (fr) 2013-05-29
EP2597316A3 (fr) 2017-10-25
CN103133360A (zh) 2013-06-05

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