JP2009097778A - Air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce operation noise by preventing air flow separation in a front rim side of a corrugated fin composing a heat exchanger. <P>SOLUTION: In the air conditioner a centrifugal blower 2, and a pair of heat exchangers 4, 4 holding the centrifugal blower 2 from both sides in a blow out side are arranged in a body casing 1. Each heat exchanger 4 is composed of a plurality of flat tubes arranged in plural rows in parallel with each other and the corrugated fin interposed between the flat tubes. In an upwind side of each heat exchanger 4, air flow guides 8 inducing blown out air along a width direction of the heat exchanger 4 toward a corrugated fin side are respectively arranged in positions nearest to the centrifugal blower 2 in a longitudinal side to improve air flow separation in the front rims of the corrugated fins. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an air conditioner, and more particularly to an air conditioner used as an indoor unit.

  As shown in FIG. 6, a centrifugal blower 2 that sucks indoor air disposed in a central portion of a rectangular parallelepiped main body casing 1 with a rotation shaft 2 a arranged in the depth direction, and a front side of the centrifugal blower 2 The formed air suction port 3, a pair of heat exchangers 4, 4 that sandwich the centrifugal blower 2 on the blowing side (for example, left and right), and the air blowing formed on the front side of the heat exchangers 4, 4, respectively. An indoor unit for an air conditioner configured to include outlets 5 and 5 has been well known (see Patent Document 1). Reference numeral 6 denotes a bell mouth provided on the suction side of the centrifugal blower 2. The heat exchangers 4 and 4 are arranged so as to be inclined so that the front side of the air suction surface is close to the centrifugal blower 2. If it does in this way, the depth dimension of the main body casing 1 can be made as small as possible.

  The centrifugal blower 2 is a turbo fan, and is configured to suck indoor air from the front side and blow out air in the radial direction. That is, the centrifugal blower 2 has a rotating shaft 2a disposed in the depth direction of the main casing 1, the suction port 2c of the impeller 2b is opposed to the air suction port 3, and the hub 2d is connected to the rear plate of the main casing 1. By arrange | positioning along 1a, indoor air is suck | inhaled from the air inlet 3 of the front center part, and it is comprised from the centrifugal blower 2 in the radial direction of the impeller 2b. And the space above and below the impeller 2b is formed small so that the blowing direction from the centrifugal blower 2 is the left and right direction of the impeller 2b, that is, the direction of the left and right air outlets 5 and 5. In the centrifugal blower 2 configured as described above, a thin motor, such as a print motor, is used as the fan motor 2e as a drive source in order to effectively reduce the thickness of the indoor unit.

  When the indoor unit is an indoor unit for a heat pump air conditioner, the heat exchangers 4 and 4 function as a condenser during heating operation and as an evaporator during cooling operation, as shown in FIG. In addition, they are arranged substantially symmetrically on both the left and right sides which are the discharge side of the centrifugal blower 2. As shown in FIG. 7, each heat exchanger 4 has a configuration in which six rows of flat tubes 4a arranged in the vertical direction are arranged in parallel, and corrugated fins 4b are interposed between the flat tubes 4a. Yes. The flat tube 4a and the corrugated fin 4b are joined by brazing or the like. And the said heat exchangers 4 and 4 are connected by the refrigerant | coolant piping 4c using the bottom part space (namely, drain pan) in the main body casing 1, and are comprised so that it may act as one.

JP 2006-336909 A

  By the way, in the case of the above-described conventional indoor unit for an air conditioner, as shown in FIG. 8, the blown air flow F blown from the centrifugal blower 2 is a centrifugal blower in the longitudinal direction of the corrugated fins 4 b constituting the heat exchanger 4. The portion closest to 2 (that is, the portion indicated by symbol P in FIG. 8) flows with an extremely large inclination angle with respect to the front edge side of the corrugated fin 4b. Then, as shown in FIG. 9, the air current peels off at the front edge of the corrugated fin 4b (that is, the front edge peeling E occurs, resulting in a problem that the operating noise increases.

  This invention is made | formed in view of said point, and aims at reduction of a driving | running noise by preventing airflow peeling in the front edge side of the corrugated fin which comprises a heat exchanger.

  In the present invention, as a first means for solving the above-described problem, an air in which a centrifugal blower 2 and a pair of heat exchangers 4 and 4 sandwiching the centrifugal blower 2 on the blowing side are disposed in the main casing 1. In the conditioner, each of the heat exchangers 4 includes a plurality of flat tubes 4a, 4a, which are arranged in a plurality of rows in parallel, and corrugated fins 4b, 4b, which are interposed between the flat tubes 4a, 4a,. The corrugated fins 4b are disposed on the windward side of the heat exchangers 4 at positions closest to the centrifugal blower 2 in the longitudinal direction and blown air along the width direction of the heat exchangers 4b. Airflow guides 8 that are attracted to the side are provided.

  By configuring as described above, the blown air flow F blown out from the centrifugal blower 2 has a very large inclination angle with respect to the front edge side of the corrugated fin 4b at a position closest to the centrifugal blower 2 in the longitudinal direction of the corrugated fin 4b. However, it is attracted to the airflow guide 8 disposed on the windward side of the heat exchanger 4 and smoothly flows into the corrugated fins 4b. As a result, air flow separation at the front edge of the corrugated fin 4b is improved, so that operation noise can be reduced and air flow inflow resistance of the heat exchanger 4 can be reduced.

  In the present invention, as a second means for solving the above-described problem, in the air conditioner provided with the first means, the air flow guide 8 is substantially equal in width in the width direction of the heat exchanger 4. It is the same, and it can also be set as the three-dimensional shape where the curvature of a guide surface becomes loose gradually as it leaves | separates from the said centrifugal blower 2, When it is comprised in that way, it is far from the centrifugal blower 2 side and the centrifugal blower 2 The inflow angle of the airflow with respect to the corrugated fin 4b changes with the side (that is, the inflow angle is large on the side close to the centrifugal blower 2 and the inflow angle is small on the side far from the centrifugal blower 2). Therefore, the airflow separation at the front edge of the corrugated fin 4b is further improved.

  In the present invention, as a third means for solving the above problems, in the air conditioner provided with the first or second means, between the heat exchangers 4 and the airflow guides 8. Further, a cross fin coil type comprising a plurality of heat transfer tubes 7a, 7a,... In a substantially vertical posture and a plurality of plate-like fins 7b, 7b,... Arranged orthogonal to the heat transfer tubes 7a, 7a,. Each of the subcooling heat exchangers 7 can also be disposed. In such a configuration, the cross fin coil type heat exchanger has a thickness that is smaller than that of a conventionally used spine fin type heat exchanger. Since it becomes thinner, the space problem is solved, and the cross fin coil type heat exchanger has the same ventilation resistance and the capacity increases by 50% or more compared to the spine fin type heat exchanger that has been conventionally used. By the way Et al., The heat transfer performance greatly improved. Moreover, the separation of the airflow flowing into the plate-like fins 7e, 7e,... Is improved by the airflow guide 8.

  According to the first means of the present invention, in the air conditioner in which the centrifugal blower 2 and the pair of heat exchangers 4 and 4 sandwiching the centrifugal blower 2 on the blowing side are arranged in the main body casing 1, The heat exchanger 4 is constituted by a plurality of flat tubes 4a, 4a, which are arranged in a plurality of rows in parallel, and corrugated fins 4b, 4b, which are interposed between the flat tubes 4a, 4a,. An airflow guide that is located on the windward side of each heat exchanger 4 and is positioned closest to the centrifugal blower 2 in the longitudinal direction and draws the blown air toward the corrugated fins 4b along the width direction of the heat exchanger 4 8 is disposed, the blown air flow F blown out from the centrifugal blower 2 is corrugated fin 4 at a position closest to the centrifugal blower 2 in the longitudinal direction of the corrugated fin 4b. It flows with an extremely large inclination angle with respect to the front edge side of the heat exchanger 4, but is drawn into the corrugated fin 4 b smoothly by being attracted by the airflow guide 8 disposed on the windward side of the heat exchanger 4. The air flow separation at the leading edge of 4b is improved, so that the operation noise can be reduced and the air flow inflow resistance of the heat exchanger 4 can be reduced.

  As in the second means of the present invention, in the air conditioner provided with the first means, the airflow guide 8 has substantially the same width in the width direction of the heat exchanger 4, and the guide surface A three-dimensional shape in which the curvature is gradually decreased as the distance from the centrifugal blower 2 is increased, and in such a case, the airflow to the corrugated fin 4b on the side closer to the centrifugal blower 2 and the side far from the centrifugal blower 2 is provided. The inflow angle changes (that is, the inflow angle is large on the side close to the centrifugal blower 2 and the inflow angle is small on the side far from the centrifugal blower 2), but this corresponds to the difference in the inflow angle, and the corrugated fin 4b. The air flow separation at the leading edge of this is further improved.

  As in the third means of the present invention, in the air conditioner having the first or second means, a plurality of substantially vertical postures are provided between the heat exchangers 4 and the airflow guides 8. .. and a cross fin coil type supercooling heat exchanger 7 comprising a plurality of plate-like fins 7b, 7b,... Arranged orthogonal to the heat transfer tubes 7a, 7a,. In such a configuration, the cross fin coil type heat exchanger is thinner than the conventionally used spine fin type heat exchanger. As a result, the cross fin coil type heat exchanger has the same ventilation resistance and the capacity increases by more than 50% compared to the spine fin type heat exchanger used in the past. To improve . Moreover, the separation of the airflow flowing into the plate-like fins 7e, 7e,... Is improved by the airflow guide 8.

  Hereinafter, several preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First Embodiment FIGS. 1 to 4 show an air conditioner according to a first embodiment of the present invention.

  The air conditioner according to the present embodiment has almost the same structure as that described as the prior art.

  That is, as shown in FIG. 1 and FIG. 2, this air conditioner is a centrifugal blower that sucks indoor air disposed in the center of a rectangular parallelepiped main body casing 1 with its rotating shaft 2a disposed in the depth direction. 2, an air suction port 3 formed on the front side of the centrifugal blower 2, a pair of heat exchangers 4, 4 that sandwich the centrifugal blower 2 on the blowing side (for example, left and right), and the heat exchanger 4 4 is provided with air outlets 5 and 5 respectively formed on the front surface side of 4, and is used as an indoor unit. Reference numeral 6 denotes a bell mouth provided on the suction side of the centrifugal blower 2. The heat exchangers 4 and 4 are disposed so as to be inclined so that the front side of the air suction surface is close to the centrifugal blower 2. If it does in this way, the depth dimension of the main body casing 1 can be made as small as possible.

  The centrifugal blower 2 is a turbo fan, and is configured to suck indoor air from the front side and blow out air in the radial direction. That is, the centrifugal blower 2 has a rotating shaft 2a disposed in the depth direction of the main casing 1, the suction port 2c of the impeller 2b is opposed to the air suction port 3, and the hub 2d is connected to the rear plate of the main casing 1. By arrange | positioning along 1a, indoor air is suck | inhaled from the air inlet 3 of the front center part, and it is comprised from the centrifugal blower 2 in the radial direction of the impeller 2b. And the space above and below the impeller 2b is formed small so that the blowing direction from the centrifugal blower 2 is the left and right direction of the impeller 2b, that is, the direction of the left and right air outlets 5 and 5. In the centrifugal blower 2 configured as described above, a thin motor, such as a print motor, is used as the fan motor 2e as a drive source in order to effectively reduce the thickness of the indoor unit.

  When the indoor unit is a heat pump air conditioner indoor unit, the heat exchangers 4 and 4 function as a condenser during heating operation and function as an evaporator during cooling operation, as shown in FIG. These are arranged substantially symmetrically on both the left and right sides, which are the discharge side of the centrifugal blower 2. Each of the heat exchangers 4 has the same structure as that of the conventional one, and as shown in FIG. 7, six rows of flat tubes 4a arranged in the vertical direction are arranged in parallel, and a corrugate is provided between these flat tubes 4a. The fin 4b is interposed. The flat tube 4a and the corrugated fin 4b are joined by brazing or the like.

  By the way, in the present embodiment, on the windward side of each heat exchanger 4, the air blown along the width direction of the heat exchanger 4 is located at the position closest to the centrifugal blower 2 in the vertical direction. The air flow guides 8 for attracting the heat exchanger 4 to the corrugated fins 4b are disposed, the air flow guides 8 have substantially the same width in the width direction of the heat exchanger 4, and the curvature rate of the guide surface is the same as that described above. The three-dimensional shape is gradually reduced as the distance from the centrifugal fan 2 increases. That is, as shown in FIG. 2, in the airflow guide 8, the curvature on the side X close to the centrifugal blower 2 is steep (in other words, the curvature radius Ra is reduced), and the side Y far from the centrifugal blower 2. Is curved (in other words, the curvature radius Rb is increased). The airflow guide 8 may be directly attached to the heat exchanger 4 or may be attached to the main body casing 1.

  By configuring as described above, the blown air flow F blown out from the centrifugal blower 2 is, as shown in FIG. 3, the front edge side of the corrugated fin 4 b at a position closest to the centrifugal blower 2 in the longitudinal direction of the corrugated fin 4 b. However, as shown in FIG. 4, the air flows smoothly into the corrugated fins 4 b by being attracted by the airflow guide 8 disposed on the windward side of the heat exchanger 4. It becomes. As a result, air flow separation at the front edge of the corrugated fin 4b is improved, so that operation noise can be reduced and air flow inflow resistance of the heat exchanger 4 can be reduced. Moreover, since the airflow guide 8 has a three-dimensional shape in which the width in the width direction of the heat exchanger 4 is substantially the same and the curvature of the guide surface gradually decreases as the distance from the centrifugal blower 2 increases, The inflow angle of the airflow to the corrugated fin 4b changes between the side X close to 2 and the side Y far from the centrifugal fan 2 (that is, the inflow angle is large on the side X close to the centrifugal fan 2 and on the side Y far from the centrifugal fan 2). However, this corresponds to the difference in the inflow angle, and the air flow separation at the front edge of the corrugated fin 4b is further improved. As shown in FIG. 4, since some airflow separation E occurs on the back side of the airflow guide 8, it is desirable to install one airflow guide 8 at a position closest to the centrifugal blower 2 in the vertical direction. .

Second Embodiment FIG. 5 shows an air conditioner according to a second embodiment of the present invention.

  In this case, between each heat exchanger 4 and each airflow guide 8, a plurality of (for example, two) heat transfer tubes 7a, 7a in a substantially vertical posture and the heat transfer tubes 7a, 7a are arranged orthogonally. Further, a cross fin coil type supercooling heat exchanger 7 composed of a large number of plate-like fins 7b, 7b,. In this case, the cross fin coil type heat exchanger has a smaller thickness than the conventionally used spine fin type heat exchanger, and thus the main body casing 1 having a small depth dimension (that is, a thin type). Even if it is used, the space problem is solved, and the cross fin coil type heat exchanger has the same ventilation resistance and the capacity is 50% or more compared with the spine fin type heat exchanger that has been used conventionally. From the increase, the heat transfer performance is greatly improved. Moreover, the separation of the airflow flowing into the plate-like fins 7e, 7e,... Is improved by the airflow guide 8.

  Other configurations and operational effects are the same as those in the first embodiment, and thus description thereof is omitted.

  The present invention is not limited to the above-described embodiment, and it is needless to say that the design can be changed as appropriate without departing from the gist of the invention.

1 is a cross-sectional plan view of an air conditioner according to a first embodiment of the present invention. It is a perspective view of the airflow guide used in the air conditioner concerning 1st Embodiment of this invention. It is a longitudinal cross-sectional view of the centrifugal fan and heat exchanger in the air conditioner concerning 1st Embodiment of this invention. It is an expanded sectional view which shows the flow state of the airflow in the site | part shown with the code | symbol P in FIG. It is a cross-sectional top view of the air conditioner concerning 2nd Embodiment of this invention. It is a cross-sectional top view of a conventionally well-known air conditioner. It is an expansion perspective view of the heat exchanger in a conventionally well-known air conditioner. It is a longitudinal cross-sectional view of the centrifugal fan and heat exchanger in a conventionally well-known air conditioner. It is an expanded sectional view which shows the flow state of the airflow in the site | part shown with the code | symbol P in FIG.

Explanation of symbols

1 is a main body casing 2 is a centrifugal blower 4 is a heat exchanger 4a is a flat tube 4b is a corrugated fin 7 is a supercooling heat exchanger 7a is a heat transfer tube 7b is a plate-like fin 8 is an airflow guide X is close to a centrifugal blower in an airflow guide Side Y is the side farther from the centrifugal fan in the airflow guide

Claims (3)

  An air conditioner in which a centrifugal blower (2) and a pair of heat exchangers (4), (4) sandwiching the centrifugal blower (2) on the blowing side are disposed in a main casing (1), Corrugated fins interposed between the flat tubes (4a), (4a), and the flat tubes (4a), (4a),. 4b), (4b) ··· and the heat exchanger (4) is located on the windward side at the position closest to the centrifugal blower (2) in the longitudinal direction. An air conditioner characterized in that air flow guides (8) for attracting blown air toward the corrugated fins (4b) are disposed along the width direction of (4).   The airflow guide (8) has a three-dimensional shape in which the width in the width direction of the heat exchanger (4) is substantially the same, and the curvature of the guide surface gradually decreases as the distance from the centrifugal blower (2) increases. The indoor unit for an air conditioner according to claim 1, wherein   Between each of the heat exchangers (4) and the airflow guide (8), a plurality of heat transfer tubes (7a), (7a), ··· and the heat transfer tubes (7a), (7a) in a substantially vertical posture. .. A cross fin coil type supercooling heat exchanger (7) comprising a plurality of plate fins (7b), (7b),. Item 3. The air conditioner according to any one of Items 1 and 2.

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