JP2006038312A - Outdoor unit for air conditioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To minimize a feeling of discomfort, as much as possible, regarding hearing by suppressing collision of a blade surface of a blow fan of an outdoor unit and a turbulent air flow, and effectively reducing a discrete frequency sound (the so-called NZ sound) having a product of a rotational frequency and the number of blades of the blow fan as a fundamental frequency. <P>SOLUTION: In the outdoor unit, a heat exchanger 2 is provided in lower parts of cross sectionally rectangular outdoor unit casing 1A and 1B interiors, the blow fan 4 is provided in upper parts, one parts of side wall parts of the casings 1A and 1B are adjacently arranged in an outer circumference part and an upstream side of the fan 4, and one face or more of the side wall part of the casing in the fan 4 upstream side is closed. A stream lining guide 10A smoothly guiding sucked air in an air suction opening direction of the fan 4 is provided in a corner part in the casings 1A and 1B to suppress collision of the fan 4 blade surface and a turbulent air flow, and to reduce the discrete frequency sound (NZ). <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  This invention relates to the structure of the outdoor unit for air conditioners.

  Conventionally, as an outdoor unit for an air conditioner, for example, there is a blower unit composed of a blower fan and a fan casing on the upper side, and a heat exchanger having a substantially U-shaped horizontal cross section on the lower side and the heat exchanger facing the heat exchanger There is an upper blow-out type outdoor unit having a main body unit composed of a control box on the surface side and an outdoor unit main body casing for storing them.

  An example of the configuration of such an outdoor unit is shown in FIGS. 9 to 12, for example.

  First, reference numeral 1 in the drawing denotes the outdoor unit. The outdoor unit casing of the outdoor unit 1 includes a lower body casing 1A in which the heat exchanger 2 and various devices 3a to 3c are installed, and an upper fan casing 1B in which the blower fan 4 is installed. The lower-side main body casing 1A, which is the center of the structure, has a rectangular shape with a predetermined length in the left-right direction as a whole, a rectangular shape with a predetermined dimension short in the front-rear direction, and a predetermined height in the vertical direction. Has become.

  The lower body casing 1A is subjected to necessary processing at necessary portions. For example, the first air suction opening 1a is provided on substantially the entire rear wall surface, and the rear wall surfaces on both the left and right wall surfaces. Nearly 2/3 portions are provided with second and third air suction openings 1b and 1c, and a maintenance opening 1d is provided on a part of the front wall surface side. The first, second, and third air suction openings 1a, 1b, and 1c as a whole have a U-shaped horizontal cross-section corresponding to a horizontal cross-section of the heat exchanger 2 described later (hereinafter referred to as a "U"). It is simply called a U-shaped cross section).

  The rear wall side first air suction opening 1a and the left and right wall surface side second and third air suction openings 1b and 1c, which have a U-shaped cross section as a whole, are, for example, as shown in the figure. In the lower side main body casing 1A, the horizontal cross-sectional shape installed from the bottom plate portion to the boundary with the upper fan casing 1B is a U-shape (hereinafter simply referred to as a U-shape in cross section). The rear wall surface side 1 which is the main heat exchanger part of the heat exchanger 2, the left and right wall surface side second and third heat exchanger parts 2a, 2b and 2c which are the subordinate heat exchanger parts. There is a heat exchange surface.

The heat exchanger 2 is constituted by, for example, a plate fin type air heat exchanger in which the heat exchanger portions 2a, 2b, and 2c are integrated with each other, and the left wall surface side third air suction opening portion. The left wall surface side third heat exchanger portion 2c corresponding to 1c and the rear wall surface side first heat exchanger portion 2a corresponding to the rear wall surface side first air suction opening 1a are the lower body casing 1A. The corner angle θ ₁ corresponding to the corner angle (90 °) is bent at an angle of approximately 90 °, while the third heat exchanger portion 2b corresponding to the second air suction opening 1b is The rear wall surface side first heat exchanger section 2a is bent outwardly at a large angle of corner angle θ ₂ = 100 ° to 110 °. Thus, even when the right wall surface side of the outdoor unit 1 is installed in contact with the wall surface of the building or when two outdoor units are installed adjacent to each other, an effective air suction space is provided between them. To be able to.

  On the other hand, the opening 1d for maintenance on the front wall side is provided with a necessary opening / closing door 7a, and the front wall has a blind wall (closed wall) structure without any air suction opening. .

  In addition, an equipment room and a service space 6 in which various equipments 3a to 3c such as a compressor and an accumulator are installed are provided above the bottom plate in the lower body casing 1A. A control box 7 having a predetermined depth width extending in the left-right direction and having a predetermined width is located on the front wall side in the left-right direction on the right side in the upper part where the wind in the equipment room and the service space 6 is easy to pass and has a high cooling effect. It is installed with a good space factor so that the inspection operation can be easily performed from the outside on the front side through the maintenance opening 1d.

  And, as described above, the heat exchange of the U-shaped cross section having the long side portion and the short side portion similarly over the three surfaces of the rear wall surface side (long side portion side) and the left and right wall surfaces side (short side portion side). The upper part of the lower-side main body casing 1A provided with the vessel 2 and provided with the U-shaped heat exchanger 2 (long side portion 2a, short side portion 2b, short side portion 2c) and various devices 3a to 3c. Further, in the state shown in FIGS. 9 and 10, the upper fan casing 1B having a rectangular tube shape having a long cross section, which is low in height, is provided integrally by a method such as fitting. In the central fan installation portion in the fan casing 1B, an axial flow type blower fan 4 such as a propeller fan is installed extending in the vertical direction as shown in the figure via predetermined fan support means.

  In the figure, reference numeral 4a denotes a hub of the blower fan 4, 4b denotes a plurality of blades (wings) of the blower fan 4, 9 denotes a fan motor of the blower fan 4, and 9a denotes rotation of the blower fan of the fan motor 9. The drive shaft is shown.

  As described above, the lower-side main body casing 1A portion having a rectangular cross section in which the heat exchanger 2 and the various devices 3a to 3c are installed and the upper-side fan casing 1B portion in which the blower fan 4 is installed are approximately The fan motor 9 is divided into a lower part and an upper part on the basis of the portion, and the upper fan casing 1B has a rectangular shape with the same horizontal cross section from the lower part to the upper part as described above. ing. Further, a substantially cylindrical bell mouth 8 is provided in the center of the upper portion in the left-right direction with a full width in the front-rear direction as shown in FIGS. 9, 11 and 12, for example. In the same state, the blower fan 4 is provided inside the bell mouth 8 so as to correspond to the upper side portions of the impeller blades 4b, 4b..., And the lower side is the air of the bell mouth 8. It is exposed below a predetermined dimension from the suction port 8a.

  And thereby, the said ventilation fan installed by expanding the outer diameter of the said upper side fan casing 1B which has the said bell mouth 8 to the diameter equivalent to the width | variety of the short side part of the said lower side main body casing 1A. By increasing the outer diameter of the impeller 4 as much as possible, the impeller of the blower fan 4 is positioned above the upper end surface of the U-shaped heat exchanger 2, for example, as shown in FIG. As shown in the figure, the heat exchanger 2 having a U-shaped cross section is installed in a crossover state in which the heat exchanger 2 overlaps in the vertical direction. As a result, it is possible to adopt an impeller with a diameter as large as possible to achieve a sufficiently high blowing performance, while still effectively reducing the size and size of the outdoor unit 1 main body. ing.

  In this case, the bell mouth 8 has a cross-sectional shape having a predetermined radius of curvature on both the air outlet 8b side and the air suction port 8a side, and an optimal air entrance angle to the bell mouth 8 portion. And the optimum air derivation angle from the bell mouth 8 part is realized.

  However, in the outdoor unit 1 for an air conditioner, as a result of such a configuration, as is apparent from FIGS. 11 and 12, the upper fan casing 1 </ b> B is disposed on the outer peripheral portion and the upstream side of the blower fan 4. Since the front wall surface and the rear wall surface are arranged close to each other, and the front wall surface is formed in a blind wall (closed wall) structure without an air suction opening, On the upstream side, there are air inlets only on the three surfaces of the wall surface side and the left and right wall surfaces.

  Therefore, for example, as shown in FIG. 12, when there is an air suction opening 1b on the front side in the rotational direction R of the blower fan 4 and a closed wall surface (front wall: front plate) on the rear side, In the case corner A where the air suction surface is present / absent, a strong negative pressure is generated immediately after the blades 4b, 4b,. The airflow sucked from the right wall surface side heat exchanging part 2b of the heat exchanger 2 flows from the front side to the rear side (see the arrow in FIG. 12). This air flow becomes a strong swirl flow on the vertical vortex due to the strong negative pressure, and a part of the air current collides with the front wall surface of the side wall surface of the fan casing 1B where there is no air suction port. It is sucked between the blades 4b, 4b.

  The strong swirl flow and the blade surfaces of the blades 4b, 4b,... Of the blower fan 4 collide with each other, and a discrete frequency sound whose fundamental frequency is the product of the number of blades and the rotation speed of the blower fan 4, so-called NZ. The problem is that the sound increases and causes discomfort in the sense of hearing.

  In order to solve this problem, for example, conventionally, a triangular guide-shaped corner guide that is long in the vertical direction is installed in the space formed in the upper corner of the upper blow-out type air conditioning outdoor unit to reduce noise. The method of aiming at this was employ | adopted (for example, refer patent document 1).

Japanese Patent No. 3433085 (page 1-4, FIG. 1-5)

  However, this corner guide rises from the lower part of the chassis to the upper part, prevents the airflow toward the negative pressure part from stagnating in the gap of the corner part, and gives a swirl flow along the chassis surface to the ascending airflow. This is merely aimed at improving the circumferential drift of the fan suction portion.

  Therefore, as described above, it is not possible to suppress the phenomenon of entering the space above the air suction surface of the blower fan 4 (between the top plate) and causing strong interference with the blades of the blower fan 4. Even if it is possible to suppress the sudden increase in noise overall, it is difficult to suppress the discrete frequency sound (NZ sound) generated as a result of the swirling flow and the fan blade surface colliding with each blade rotation. It was difficult to eliminate the above discomfort.

  The present invention has been made to solve such a problem, and among the four corner portions of the outdoor unit casing as described above, for example, the front side sucks relative to the rotation direction of the blower fan. For example, a rectifying guide that extends from the upper end of the heat exchanger toward the air suction port of the blower fan is installed at a location where the rear side is relatively difficult to suck, and passes through the heat exchanger and faces the blower fan. An object of the present invention is to provide an outdoor unit for an air conditioner in which a strong vertical swirling air flowing into a vertical vortex and sucked into a blower fan flows smoothly.

  In order to achieve the above object, the present invention is configured with the following problem solving means.

(1) First Problem Solving Means The first problem solving means of the present invention includes a heat exchanger 2 in the lower part of the outdoor unit casing 1A, 1B having a square cross section, and a blower fan 4 in the upper part of the outdoor unit casings 1A, 1B. And a part of the side wall of the outdoor unit casing 1A, 1B is disposed close to the outer peripheral portion and the upstream side of the blower fan 4, and the outdoor unit casing 1A on the upstream side of the blower fan 4 In the outdoor unit having a configuration in which one or more side walls of 1B are closed, the suction airflow from the heat exchanger 2 is blown to the corner portions A, C, D, B in the outdoor unit casings 1A, 1B. 4 is provided with straightening guides 10A, 10C, and 10 that smoothly guide the air in the direction of the air suction port 4.

  While having the heat exchanger 2 in the lower part in the outdoor unit casings 1A and 1B having a square cross section, and the blower fan 4 in the upper part in the outdoor unit casings 1A and 1B, the outer peripheral part and the upstream side of the blower fan 4 are as described above. A part of the side wall portions of the outdoor unit casings 1A and 1B are arranged close to each other, and one or more surfaces of the side wall portions of the outdoor unit casings 1A and 1B on the upstream side of the blower fan 4 are closed. In the case of the configuration of an outdoor unit having an air suction surface on the front side in the rotation direction and a closed wall surface on the rear side, the corners in the casings 1A and 1B that serve as boundaries between the presence and absence of the air suction surface on the upstream side of the blower fan 4 In the section, a strong swirling flow on the vertical vortex is generated from the front to the rear in the rotation direction of the blower fan 4, and the swirl is sucked between the blades of the blower fan 4.

  Then, the blade surface of the blower fan 4 collides with the swirling flow, and a discrete frequency sound having a fundamental frequency that is the product of the number of blades and the rotation speed of the blower fan 4, that is, a NZ sound, increases, resulting in an uncomfortable feeling.

  Therefore, at least the corner portions A, C or D, B in the outdoor unit casings 1A, 1B in which the vertical swirling flow is generated, the suction airflow from the heat exchanger 2 is sent to the air intake port of the blower fan 4 In the direction, rectifying guides 10A, 10B, and 10 that guide smoothly are provided.

  If it does so, the airflow which passes the heat exchanger 2 of the lower side, opposes the ventilation fan 4 of the upper side, becomes a vertical vortex, and is sucked in into the ventilation fan 4 will be the same rectifying guides 10A, 10B, 10 will flow smoothly. Therefore, the collision between the blade surface, particularly the upstream blade surface not surrounded by the air suction guide member such as a bell mouth, and the turbulent air flow is suppressed, and the product of the rotational speed of the blower fan 4 and the number of blades is defined as the fundamental frequency. Strong discrete frequency sound (so-called NZ sound) is reduced, and audible discomfort can be reduced as much as possible.

(2) Second Problem Solving Means According to a second problem solving means of the present invention, in the configuration of the first problem solving means, the rectifying guides 10A and 10C are plate-shaped, and the inside of the outdoor unit casings 1A and 1B. With respect to the rotation direction of the blower fan 4, the front side is relatively easy to suck in, and the rear side is relatively difficult to suck in, and is provided only in corner portions A, C, D, and B.

  According to such a configuration, the corner on which the front side is relatively easy to suck and the rear side is relatively difficult to suck with respect to the rotation direction of the blower fan 4 in the outdoor unit casings 1A and 1B in which the strong vertical swirl flow is generated. After passing through the heat exchanger 2 by the plate-like rectifying guides 10A and 10C provided only in the parts A, C or D and B, they are sucked into the blower fan 4 in the form of a vertical vortex facing the blower fan 4 The air flow is rectified and guided to flow smoothly. Therefore, the collision between the blade surface, in particular the blade surface upstream of the blower fan 4 not surrounded by the air suction guide member such as a bell mouth, and the turbulent airflow is effectively suppressed, and the rotational speed and the number of blades of the blower fan 4 are suppressed. A strong discrete frequency sound (NZ) having a fundamental frequency as the product of is reduced, and audible discomfort can be reduced as much as possible.

(3) Third Problem Solving Means According to a third problem solving means of the present invention, in the configuration of the second problem solving means, the rectifying guides 10A and 10C are located at the upper end portion of the heat exchanger 2 and perform heat exchange. It is characterized in that it is formed by extending a part of a seal plate 12 for sealing between the container 2 and the side walls of the outdoor unit casings 1A, 1B.

  The plate-like rectifying guides 10A and 10C provided at the corners in the outdoor unit casings 1A and 1B in which the strong vertical swirling flow is generated can be formed by independent and independent plate members as in the present invention. The heat exchanger 2 may be formed by using a part of the seal plate 12 that seals between the heat exchanger 2 and the side walls of the outdoor unit casings 1A and 1B at the upper end of the heat exchanger 2.

  In such a case, as compared with the case of preparing another member, the processing is simple and the mounting is easy.

(4) Fourth Problem Solving Means According to a fourth problem solving means of the present invention, in the configuration of the first problem solving means, the rectifying guide 10 is configured to suck air into the blower fan 4 in the outdoor unit casings 1A and 1B. It consists of a single plate that divides the entire periphery of the opening surface of the port 8a, and is also formed as a seal plate for the heat exchanger 2.

  If the rectifying guide 10 that performs the rectifying guide function of the vertical vortex is provided individually at the necessary corners A, C or D, B as described above, the mounting man-hours increase together with the processing man-hours, and installation is troublesome. Take it.

  Therefore, in the present invention, the rectifying guide 10 is formed by a single plate capable of partitioning the entire periphery of the air suction port 8a of the blower fan 4 such as a bell mouth in the outdoor unit casings 1A and 1B. By the same plate, the suction air flow from the heat exchanger 2 in the corner portions A, C or D, B in the outdoor unit casings 1A, 1B in which the strong vertical swirling flow described above is generated is smoothed in the direction of the air intake port 8a. On the other hand, the outer peripheral portion of the heat exchanger 2 also serves as a seal plate for sealing between the heat exchanger 2 and the side walls of the outdoor unit casings 1A and 1B at the upper end of the heat exchanger 2.

  In this way, the airflow around the air inlet 8a of the blower fan 4 such as a bell mouth is sucked into the blower fan 4 more smoothly, while the conventional seal plate for the heat exchanger 2 is used. 12 is also unnecessary.

  As a result, according to the present invention, unlike the conventional configuration, the airflow that passes through the heat exchanger and forms a vertical vortex facing the blower fan and is sucked into the blower fan is smooth along the rectifying guide. Therefore, the collision between the blade surface (especially the upstream blade surface not surrounded by the air suction guide member of the bell mouth) and the turbulent air flow is suppressed, and the product of the rotational speed of the blower fan and the number of blades is obtained. It is possible to effectively reduce a strong discrete frequency sound (so-called NZ sound) having a fundamental frequency as a fundamental frequency, and to reduce audible discomfort as much as possible.

(Best Embodiment 1)
First, FIGS. 1-5 has shown the structure of the outdoor unit for air conditioners which concerns on the best Embodiment 1 of this invention.

  Reference numeral 1 in the figure denotes the outdoor unit. The outdoor unit casing of the outdoor unit 1 includes a lower body casing 1A in which the heat exchanger 2 and various devices 3a to 3c are installed, and an upper fan casing 1B in which the blower fan 4 is installed. The lower-side main body casing 1A, which is the center of the structure, has a rectangular shape with a predetermined length in the left-right direction as a whole, a rectangular shape with a predetermined dimension short in the front-rear direction, and a predetermined height in the vertical direction. Has become.

  The lower body casing 1A is subjected to necessary processing at necessary portions. For example, the first air suction opening 1a is provided on substantially the entire rear wall surface, and the rear wall surfaces on both the left and right wall surfaces. Nearly 2/3 portions are provided with second and third air suction openings 1b and 1c, and a maintenance opening 1d is provided on a part of the front wall surface side. The first, second, and third air suction openings 1a, 1b, and 1c as a whole have a U-shaped horizontal cross-section corresponding to a horizontal cross-section of the heat exchanger 2 described later (hereinafter referred to as a "U"). It is simply called a U-shaped cross section).

  The rear wall side first air suction opening 1a and the left and right wall surface side second and third air suction openings 1b and 1c, which have a U-shaped cross section as a whole, are, for example, as shown in the figure. In the lower side main body casing 1A, the horizontal cross-sectional shape installed from the bottom plate portion to the boundary with the upper fan casing 1B is a U-shape (hereinafter simply referred to as a U-shape in cross section). The rear wall surface side 1 which is the main heat exchanger part of the heat exchanger 2, the left and right wall surface side second and third heat exchanger parts 2a, 2b and 2c which are the subordinate heat exchanger parts. There is a heat exchange surface.

The heat exchanger 2 is constituted by, for example, a plate fin type air heat exchanger in which the heat exchanger portions 2a, 2b, and 2c are integrated with each other, and the left wall surface side third air suction opening portion. The left wall surface side third heat exchanger portion 2c corresponding to 1c and the rear wall surface side first heat exchanger portion 2a corresponding to the rear wall surface side first air suction opening 1a are the lower body casing 1A. The corner angle θ ₁ corresponding to the corner angle (90 °) is bent at an angle of approximately 90 °, while the third heat exchanger portion 2b corresponding to the second air suction opening 1b is The rear wall surface side first heat exchanger section 2a is bent outwardly at a large angle of corner angle θ ₂ = 100 ° to 110 °. Thus, even when the right wall surface side of the outdoor unit 1 is installed in contact with the wall surface of the building or when two outdoor units are installed adjacent to each other, an effective air suction space is provided between them. To be able to.

  On the other hand, the opening 1d for maintenance on the front wall side is provided with a necessary opening / closing door 7a, and the front wall has a blind wall (closed wall) structure without any air suction opening. .

  In addition, an equipment room and a service space 6 in which various equipments 3a to 3c such as a compressor and an accumulator are installed are provided above the bottom plate in the lower body casing 1A. A control box 7 having a predetermined depth width extending in the left-right direction and having a predetermined width is located on the front wall side in the left-right direction on the right side in the upper part where the wind in the equipment room and the service space 6 is easy to pass and has a high cooling effect. It is installed with a good space factor so that the inspection operation can be easily performed from the outside on the front side through the maintenance opening 1d.

  And, as described above, the heat exchange of the U-shaped cross section having the long side portion and the short side portion similarly over the three surfaces of the rear wall surface side (long side portion side) and the left and right wall surfaces side (short side portion side). The upper part of the lower-side main body casing 1A provided with the vessel 2 and provided with the U-shaped heat exchanger 2 (long side portion 2a, short side portion 2b, short side portion 2c) and various devices 3a to 3c. 1, 3, 4, and 5, the upper fan casing 1 </ b> B having a rectangular shape with a long cross section is formed by a method such as fitting. An axial flow type fan 4 such as a propeller fan is vertically installed as shown in the figure at a central fan installation portion in the fan casing 1B via a predetermined fan support means. Has been.

  In the figure, reference numeral 4a denotes a hub of the blower fan 4, 4b denotes a plurality of blades (wings) of the blower fan 4, 9 denotes a fan motor of the blower fan 4, and 9a denotes rotation of the blower fan of the fan motor 9. The drive shaft is shown.

  As described above, the lower-side main body casing 1A portion having a rectangular cross section in which the heat exchanger 2 and the various devices 3a to 3c are installed and the upper-side fan casing 1B portion in which the blower fan 4 is installed are approximately The fan motor 9 is divided into a lower part and an upper part on the basis of the portion, and the upper fan casing 1B has a rectangular shape with the same horizontal cross section from the lower part to the upper part as described above. ing. Then, a substantially cylindrical bell mouth 8 is provided in the center of the upper portion in the left-right direction with a full width in the front-rear direction, as shown in FIGS. 1 and 3, for example. In the same state, the blower fan 4 is provided inside the bell mouth 8 so as to correspond to the upper side portions of the impeller blades 4b, 4b..., And the lower side is the air of the bell mouth 8. A predetermined dimension or more is exposed below the suction port 8a.

  And thereby, the said ventilation fan installed by expanding the outer diameter of the said upper side fan casing 1B which has the said bell mouth 8 to the diameter equivalent to the width | variety of the short side part of the said lower side main body casing 1A. By increasing the outer diameter of the impeller 4 as much as possible, the impeller of the blower fan 4 is positioned above the upper end surface of the U-shaped heat exchanger 2, for example, as shown in FIG. As shown in the figure, the heat exchanger 2 having a U-shaped cross section is installed in a crossover state in which the heat exchanger 2 overlaps in the vertical direction. As a result, it is possible to adopt an impeller with a diameter as large as possible to achieve a sufficiently high blowing performance, while still effectively reducing the size and size of the outdoor unit 1 main body. ing.

  In this case, the bell mouth 8 has a cross-sectional shape having a predetermined radius of curvature on both the air outlet 8b side and the air suction port 8a side, and an optimal air entrance angle to the bell mouth 8 portion. And the optimum air derivation angle from the bell mouth 8 part is realized.

  However, in the outdoor unit 1 for an air conditioner, as a result of such a configuration, as is apparent from FIGS. 1 and 3, the upper fan casing 1 </ b> B is disposed on the outer peripheral portion and the upstream side of the blower fan 4. Since the front wall surface and the rear wall surface are arranged close to each other, and the front wall surface is formed in a blind wall (closed wall) structure without an air suction opening, On the upstream side, there are air inlets only on the three surfaces of the wall surface side and the left and right wall surfaces.

  Therefore, as shown in FIG. 3, when there is an air suction opening 1b on the front side in the rotational direction R of the blower fan 4 and a closed wall surface (front wall: front plate) on the rear side, the air upstream of the blower fan 4 In the housing corners A and C, which have a boundary with / without a suction surface, a strong negative pressure is generated immediately after the blades 4b, 4b. From the front side of R toward the rear side, the airflow sucked from the right wall surface side heat exchange part 2b of the heat exchanger 2 flows (see the arrowed part in FIG. 12 described above). This air flow becomes a strong swirl flow on the vertical vortex due to the strong negative pressure, and a part of the air current collides with the front wall surface of the side wall surface of the fan casing 1B where there is no air suction port. It is sucked between the blades 4b, 4b.

  The strong swirl flow and the blade surfaces of the blades 4b, 4b,... Of the blower fan 4 collide with each other, and a discrete frequency sound whose fundamental frequency is the product of the number of blades and the rotation speed of the blower fan 4, so-called NZ. The problem is that the sound increases and causes discomfort in the sense of hearing.

  Therefore, in the past, as described above, for example, a triangular prism-shaped corner that is long in the vertical direction with respect to the gap formed in the upper corner portion of the housing of the air-conditioning outdoor unit of the up-blowing type, as described above. A method was adopted in which a guide was installed to thereby reduce noise.

  However, this corner guide prevents the airflow rising upward from the lower part of the chassis and moving toward the negative pressure part from stagnating in the gap portion of the corner part, and the swirl flow along the chassis surface with respect to the ascending current It is only intended to improve circumferential drift during fan suction. Therefore, the above-described phenomenon that enters the space above the fan suction surface (between the top plate) and causes strong interference with the blades 4b, 4b,. Even though the sudden increase in noise overall can be suppressed, it is difficult to suppress the discrete frequency sound generated by the swirling flow and the fan blade surface colliding with each rotation of the blade, and it is difficult to eliminate the discomfort in hearing. Met.

  Therefore, in this best embodiment, in order to solve such a problem, for example, as shown in detail in FIGS. 1 to 5, the rectangular tubular outdoor unit casing (fan casing 1B and main body casing 1A). Among the four corner portions A to D (see FIG. 3), the front side is relatively easy to suck in with respect to the rotation direction R of the blower fan 4, and the rear side is relatively difficult to suck in the places A and C. For example, rectifying guide plates 10A and 10C extending substantially horizontally from the upper end portion of the heat exchanger 2 toward the air suction port 8a side end portion of the bell mouth 8 are installed and passed through the heat exchanger 2 (2b portion). In addition, a strong vertical swirling airflow that is vertically swirled in opposition to the blower fan 4 and sucked into the blower fan 4 flows smoothly along the straightening guide plates 10A and 10C.

  As a result, the collision between the blade surfaces of the blades 4b, 4b... Of the blower fan 4, particularly the blade surfaces of the upstream blades not surrounded by the bell mouth 8, and the turbulent airflow is suppressed. By effectively reducing the strong discrete frequency sound (NZ sound) having the fundamental frequency as the product of the number of rotations and the number of blades, it is possible to reduce the unpleasant discomfort of the conventional sound as much as possible. Yes.

  In this case, the rectifying guide plates 10A and 10C are made of, for example, a dedicated plate material having a required size and shape by using the frame portion of the outdoor unit casings 1B and 1A, the heat exchanger 2 described above, the front wall (front plate), the left and right sides. It can be formed relatively easily by being fixed to a face wall (side plate) or by extending a part of the bell mouth 8 in the horizontal direction.

  For example, when a part of the illustrated seal plate 12 that seals between the heat exchanger 2 and the side walls of the outdoor unit casings 1A and 1B is used at the upper end of the heat exchanger 2, another member is used. Compared with the case of preparing, the processing is simple and the mounting becomes easy.

  1 to 5, a seal plate (between the heat exchanger 2 and the wind space on the heat exchanger 2 is provided over the entire upper end surface of the U-shaped heat exchanger 2. One end a side is fixed to the plate member 12 to be sealed, while the other end b side is bent so as to be directed toward the air inlet 8 a side of the bell mouth 8.

  In this case, if a three-dimensional curved surface is used, the shape can be further optimized. However, since the manufacturing cost increases, it is easier to perform the bending process using a flat plate.

  In the case of the heat exchanger 2 having a U-shaped cross section as described above, for example, in FIG. 3, when the front wall surface where the heat exchanger 2 does not exist is the front, the above-mentioned corner on the right side toward the front wall is provided. The part A is the most effective, and the next is the corner part C on the back left side.

  Since the corner portions B and D other than that do not generate a strong vertical vortex, a rectifying guide plate is unnecessary, and even if installed, there is no effect and only the cost increases.

  On the other hand, when the rotation direction R of the blower fan 4 is opposite to that shown in FIG. 3, if the heat exchanger 2 has a U-shaped cross section similar to the above, The corner portion D is the most effective, and the next is the corner portion B on the right side.

(Best Mode 2)
Next, FIGS. 6 to 8 show the configuration of an air conditioner outdoor unit according to the second preferred embodiment of the present invention.

  The outdoor unit for an air conditioner according to this embodiment includes a corner portion A in which the vertical vortex as described above is generated in the configuration of the outdoor unit according to the first embodiment shown in FIGS. , C or B, D, as well as a single straightening guide plate 10 is provided on the entire corner surfaces A to D in the outdoor unit casing.

  Even with such a configuration, it is possible to rectify each of the corner portions A, C or B, D that require the rectification described above, and it is possible to obtain exactly the same operational effects as in the case of the best embodiment 1.

  That is, if the rectifying guides that perform the vertical vortex rectifying guide function are individually provided at the necessary corners as described above, the mounting man-hours increase together with the processing man-hours, and the mounting is troublesome.

  Therefore, as shown in FIG. 6, the straightening guide is formed by a single plate 10 that can partition the entire periphery of the air suction opening of the blower fan 4 such as the bell mouth 8 in the outdoor unit casings 1A and 1B. Then, the air flow from the heat exchanger 2 in the corner portions A, C or D, B in the outdoor unit casings 1A, 1B where the strong vertical swirling flow described above is generated by the plate 10 is directed toward the air intake port. On the other hand, the outer peripheral portion of the heat exchanger 2 serves as the above-described seal plate 12 that seals between the heat exchanger 2 and the side walls of the outdoor unit casings 1A and 1B at the outer peripheral portion.

  In this way, the airflow around the air inlet 8a of the blower fan 4 such as the bell mouth 8 can be sucked into the blower fan 4 more smoothly, while the conventional seal plate for the heat exchanger is used. 12 is also unnecessary.

  In this case, the rectifying guide plate 10 shown in FIG. 6 that closes the entire corners A to D has a height equal to or higher than a predetermined dimension provided on the upper end surface of the heat exchanger 2 as shown in FIG. It may be installed horizontally at the height of the air inlet 8a of the bell mouth 8 through a certain airflow leakage preventing seal member 13, or, for example, as shown in FIG. You may make it install in the funnel shape used as a taper surface from the upper end surface to the air inlet 8a of the bellmouth 8. FIG.

It is a perspective view which shows the structure of the whole vertical direction of the outdoor unit for air conditioners which concerns on the best Embodiment 1 of this invention. It is a perspective view of the state which removed the upper side fan casing part of the outdoor unit. It is a top view of the outdoor unit. It is a partially cutaway rear view of the outdoor unit. It is a partially cutaway front view of the outdoor unit. It is a top view of the state which removed the upper side fan casing part of the outdoor unit for air conditioners concerning the best embodiment 2 of this invention. It is a partially cutaway front view of the outdoor unit. It is a partially cutaway rear view of the outdoor unit. It is a perspective view which shows the structure of the whole vertical direction of the conventional outdoor unit for air conditioners. It is a front view which shows the problem of the outdoor unit. It is a right view of the outdoor unit. It is a top view which shows the problem of the outdoor unit.

Explanation of symbols

  1 is an outdoor unit, 1A is a lower body casing, 1B is an upper fan casing, 1a is a rear wall side air suction opening, 1b is a right wall side air suction opening, and 1c is a left wall side air suction opening. Opening part, 2 is a U-shaped heat exchanger, 2a is a rear wall side heat exchanger part, 2b is a right wall side heat exchanger part, 2c is a left wall side heat exchanger part, 4 is a blower fan, 4a Is a hub, 4b is a blade, 8 is a bell mouth, 8a is an air inlet, 8b is an air outlet, 10A, 10C, 10 are rectifying guide plates, 12 is a heat exchanger seal plate, 13 is a heat exchanger seal member is there.

Claims (4)

  The outdoor unit casings (1A) and (1B) having a square cross section have a heat exchanger (2) in the lower part of the outdoor unit casing (1B) and a blower fan (4) in the upper part of the outdoor unit casings (1A) and (1B). 4) A part of the side wall of the outdoor unit casing (1A), (1B) is disposed close to the outer peripheral part and the upstream side of 4), and the outdoor unit casing (1A) on the upstream side of the blower fan (4) ), (1B) in the outdoor unit having a configuration in which one or more side walls are closed, the corners (A, C), (D, B) in the outdoor unit casings (1A), (1B) An air conditioner provided with rectifying guides (10A), (10C), (10) for smoothly guiding the suction airflow from the heat exchanger (2) in the direction of the air suction port of the blower fan (4) Outdoor unit.   The rectifying guides (10A) and (10C) are plate-like, and the front side is relatively easy to suck in with respect to the rotation direction of the blower fan (4) in the outdoor unit casings (1A) and (1B), and the rear side is The outdoor unit for an air conditioner according to claim 1, wherein the outdoor unit is provided only at corners (A, C) and (D, B) which are relatively difficult to suck.   The straightening guides (10A) and (10C) are seal plates that seal the space between the heat exchanger (2) and the side walls of the outdoor unit casings (1A) and (1B) at the upper end of the heat exchanger (2). The outdoor unit for an air conditioner according to claim 2, characterized in that it is formed by extending a part of (12). The rectifying guide (10) is composed of a single plate that divides the entire periphery of the air suction port 8a of the blower fan (4) in the outdoor unit casings (1A) and (1B). The heat exchanger (2) The outdoor unit for an air conditioner according to claim 1, wherein the outdoor unit is also used as a seal plate.

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