JP2010133297A - Centrifugal blower - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce a leakage flow amount from a clearance between a shroud and a bell-mouth in a centrifugal blower such as a turbo fan to improve fan efficiency, and to suppress separation and reduce separation noise of a blade negative pressure face caused by interference with a main flow. <P>SOLUTION: The centrifugal blower includes: a circular hub fixed to a rotary drive shaft; a plurality of backward blades fixed in parallel in a circumferential direction of the hub; the shroud fixed to a side opposite to a fixed end of the blade, and forming an air suction port; and the bell-mouth to which an air outlet port is play-fitted with a predetermined clearance in an air suction side end part of the shroud. An outer periphery of the air flow outlet part of the bell-mouth play-fitted to the inside of the shroud is provided with a seal wall covering the air suction side end part of the shroud to have structure with U-shaped cross-section, so that the leakage flow amount from the clearance between the shroud and the bell-mouth is reduced. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to the structure of a centrifugal blower.

  FIGS. 4 and 5 show the entire structure of a conventional turbofan as an example of a centrifugal blower applied to, for example, the ceiling-embedded air conditioner 1 and the structure of the main part thereof.

  In FIG. 4, reference numeral 2 is a cassette-type main body casing of the ceiling-embedded air conditioner 1. The main body casing 2 is embedded in the ceiling 3 such that its intake / blowout panel (lower surface panel portion) 4 continues in substantially the same plane as the ceiling 3.

  The intake / blowout panel 4 of the main body casing 2 is provided with a square air suction grille 5 at the center, and further, a bell mouth 6 for the turbofan 11 is connected to the inside thereof via a prefilter F. It is installed.

  Further, air blowout ports 9, 9... Having a predetermined width are provided on the outer peripheral portion 4 side of the air suction grille 5 of the intake / blowout panel 4 of the main body casing 2.

  In the main body casing 2, an air flow passage 10 is formed in the entire circumferential direction from the air suction grille 5 through the bell mouth 6 to the air outlets 9, 9,. The air suction side (the air suction side end portion 15a of the shroud 15 to be described later) is located on the outer periphery of the air outlet portion 6c of the bell mouth 6 at the center of the passage 10 behind the bell mouth 6 (upper part in the drawing). The loosely fitted turbo fan 11 is suspended from the ceiling panel 2 a of the main body casing 2 via a fan motor 13.

  The air flow path 10 is provided with an air heat exchanger 12 so as to surround the turbofan 11.

  On the other hand, the turbo fan 11 includes a circular hub (main plate) 14 fixed to the rotational drive shaft 13a of the fan motor 13 and a cylindrical shroud on the other end side that forms an air suction port in the centrifugal direction in the impeller. .. Are arranged side by side in the circumferential direction with a predetermined blade angle and a predetermined blade interval. On the other hand, in the air suction side end portion 15a of the shroud 15, a downstream air outlet portion 6c of the bell mouth 6 is loosely fitted with a predetermined dimension so as to be relatively rotatable with a predetermined gap G maintained.

  The bell mouth 6 centrifuges the air from the main body casing 2 side air suction grille 5 with respect to the air suction side end 15a of the shroud 15 forming the air suction port of the turbo fan impeller. In order to smoothly flow in the direction, as shown in the figure, a predetermined curvature radius extending inwardly from the mounting edge 6a to the intake / blowout panel 4 and gradually reducing the opening diameter from the air flow upstream side to the air flow downstream side The air flow guide surface is composed of an air inlet portion 6b made of a circular arc surface and an air outlet portion 6c extending on an extension line of the air inlet portion 6b.

  And the aerodynamic noise generated at the time of blowing by smoothly guiding the air on the suction side of the turbofan impeller in the centrifugal direction on the suction side on the suction side corresponding to the shroud 15 of the turbofan impeller due to its shape. We try to reduce it as much as possible.

  In this way, in centrifugal fans such as turbofans, the airflow guide surfaces of the bell mouth and shroud can be made close to the ideal airflow guide surface shape, respectively, so that the turbulence of the air flow around the outer periphery of the impeller and the suction portion is possible. The aerodynamic noise is reduced as much as possible.

  However, the aerodynamic noise generated between the shroud 15 and the bell mouth 6 includes, for example, a high-speed leakage flow B that leaks from a gap G between them when the impeller rotates as shown in FIG. Interference with the main flow A ′ closer to the shroud in the main flow A increases separation of the air flow on the suction surface side of the blades 16, 16... And aerodynamic noise generated thereby.

  By the way, the gap G between the bell mouth 6 and the shroud 15 is provided so that the impeller does not contact the bell mouth 6 when the impeller rotates.

  The width of the gap G is generally set in consideration of the following three factors.

(1) Rotational vibration due to fan manufacturing accuracy (2) Assembly error of indoor unit (3) Misalignment of impeller that may occur during installation of indoor unit However, due to the presence of this gap G, the blade 16, as shown in FIG. The airflow discharged from 16... Leaks through the gap G to the suction side of the impeller. The leakage flow B generates aerodynamic noise as described above and causes a decrease in fan efficiency.

  Of course, so far, the manufacturing accuracy of the fan impeller has been improved to reduce rotational blur as much as possible. In addition, efforts have been made to reduce the assembly error of indoor units. Furthermore, when installing an indoor unit, the horizontality has been kept as high as possible to reduce misalignment due to minute deformation of the indoor unit.

  Nevertheless, in practice, a certain amount of misalignment is unavoidable. For example, the gap G is set to a large value of 5 mm or more. Therefore, in this situation, the fan efficiency is still low, the fan motor input is high, and the energy saving performance of the air conditioner is impaired.

  Conventionally, as a first conventional example to cope with such a problem, for example, a centrifugal impeller having a plurality of blades and a ring-shaped rectifying plate disposed at the tip of the suction port of the blades, and the periphery of the air intake port A ring-shaped recess is formed at the tip, and a configuration is provided with a bell mouth having a convex curved surface from the inlet side to the outlet side with the shape of the suction side end of the recess facing the shape of the rectifying plate, There is a device that reduces backflow at the contact portion between the tip of the air inlet of the bell mouth and the end surface of the air inlet of the centrifugal impeller and allows air to flow smoothly from the inlet of the bell mouth (patent) Reference 1).

  However, in the case of such a configuration, there is a problem that the peripheral portion of the air inlet of the bell mouth protrudes locally to the upstream side of the air flow, making it difficult to smoothly inhale air from the outer periphery.

  Further, in the case of the same configuration, as a result, the leakage flow is disturbed, so that the disturbed air current collides with the blades, leading to an increase in aerodynamic noise.

  Therefore, the tip of the suction port ring is inserted inside the suction port of the side plate on the air suction side of the impeller, and an annular wall is concentric with the center of the suction port ring on the outer side of the suction port of the air suction port suction side plate. The one provided is also proposed (see Patent Document 2).

  Further, an impeller composed of a main plate, a side plate, and a plurality of impellers, a casing containing the impeller, an annular groove provided on the entire periphery of the suction portion of the side plate, and a tip portion inserted into the annular groove The thing comprised from the suction inlet ring is also proposed (refer patent document 3).

JP 7-180855 A JP-A-64-60799 Japanese Utility Model Publication No. 64-47998

  According to the configuration as described in Patent Documents 2 and 3, the protrusion of the peripheral portion of the air suction portion of the bell mouth as in Patent Document 1 can be eliminated, and a sealing property is also realized. Since it is turbulent, the turbulent airflow collides with the blades, leaving the problem of increasing the aerodynamic noise.

  The present invention has been made in order to solve such problems. By making the sealing property more reliable and smoothing the leakage flow, the increase in noise is minimized and as much as possible. An object of the present invention is to provide a centrifugal blower with improved fan efficiency.

  In order to achieve the above object, each invention of the present application includes the following problem solving means.

(1) The invention of claim 1 The present invention provides a circular hub fixed to a rotational drive shaft, a plurality of rearwardly facing blades fixed side by side in the circumferential direction of the hub, and an anti-fixed end side of the blades. A centrifugal blower comprising a shroud that is fixed and forms an air inlet, and a bell mouth in which an air outlet port is loosely fitted in an air suction side end of the shroud, and is provided inside the shroud. A seal wall covering the air suction side end of the shroud is provided on the outer periphery of the air outlet portion of the bell mouth to be loosely fitted so as to form a U-shaped cross section.

  In this configuration, a seal wall that covers the air suction side end of the shroud is provided on the outer periphery of the air outlet portion of the bell mouth that is loosely fitted to the shroud so as to form a U-shaped cross section.

  Accordingly, a pocket portion having a U-shaped cross section is formed on the outer periphery of the air outlet of the bell mouth, and the length of the leakage flow channel itself is increased due to the presence of the pocket portion having the U-shaped cross section. Thus, not only the airflow resistance of the leakage flow itself increases, but also the leakage flow starts to make a U-turn, so that the airflow resistance greatly increases.

  As a result, the amount of leakage flow is greatly reduced, fan efficiency is improved, and separation of the blade suction surface due to interference with the mainstream is effectively suppressed.

  As a result, the air blowing performance is improved and aerodynamic noise is effectively reduced as compared with the conventional centrifugal blower.

(2) Invention of Claim 2 This invention is characterized in that, in the configuration of the invention of Claim 1, the seal wall is formed to extend longer to the shroud side than the air outlet portion of the bell mouth. .

  According to such a configuration, in the configuration of the first aspect of the invention, the flow path of the leakage flow can be made longer, and the leakage flow can be reduced more effectively. As a result, fan efficiency is improved.

  Also, the airflow past the tip of the bell mouth comes to follow the shroud surface. As a result, separation of the shroud surface is reduced, and aerodynamic noise is effectively reduced.

(3) Invention of Claim 3 In this invention, in the structure of the invention of Claim 1 or 2, the air outlet part of the bell mouth is enlarged in diameter in a cross-sectional arc shape from the suction side to the outlet side. It is a feature.

  According to such a configuration, the fan efficiency is improved as described above by reducing the leakage flow, and the airflow guide surface of the air outlet portion of the bell mouth is formed in a circular arc shape along the downstream side of the air suction side end portion of the shroud. Therefore, the airflow past the tip of the bell mouth follows the shroud surface.

  As a result, separation of the shroud surface is reduced, and aerodynamic noise is effectively reduced. As a result, the leakage flow also flows smoothly, so that the disturbance of the leakage flow itself is reduced, and aerodynamic noise due to the collision between the leakage flow and the blades is further effectively reduced.

(4) Invention of Claim 4 This invention is the structure of the said invention of Claim 1, 2, or 3, The inside of the continuous part with respect to the air outflow part of the bell mouth of a seal wall is a concave groove surface of cross-section circular arc shape. It is characterized by being formed.

  According to such a configuration, not only the fan efficiency is improved as described above by reducing the leakage flow, but also the leakage flow flowing by making a U-turn in the same part flows more smoothly, so the leakage flow is further disturbed. The aerodynamic noise due to the collision between the leakage flow and the blades is further effectively reduced.

(5) Invention of Claim 5 This invention is the structure of the invention of the said Claim 1, 2, 3, or 4 WHEREIN: The minimum space | interval between the air outlet part of a bell mouth and a shroud, a seal wall, and a shroud are used. It is characterized in that the minimum interval is formed to be substantially equal.

  According to such a configuration, the fan efficiency is improved as described above by reducing the leakage flow, and the distance between the shroud and the inner bell mouth air outlet and the distance between the shroud and the outer seal wall is approximately the same. Since it is set such that there is no contact due to impeller rotational blur or misalignment, contact between the shroud and the inner and outer walls of the bell mouth does not occur.

(6) Invention of Claim 6 This invention is the structure of the invention of Claim 1, 2, 3, 4 or 5, wherein the centrifugal blower is configured as a blower of an indoor unit for an air conditioner. It is said.

  According to such a configuration, an air conditioner having high performance, low noise, and high energy efficiency utilizing the various merits of the blower having the configuration of claim 1, 2, 3, 4 or 5, such as improvement of fan efficiency. An indoor unit can be realized.

  As a result, according to the present invention, it is possible to provide a centrifugal air blower with low aerodynamic noise and high air blowing performance and a high performance air conditioner with high air blowing performance and low noise using the air blower. .

(Best Embodiment 1)
1 and 2 show the structure of a centrifugal blower according to the first embodiment of the present invention applied to, for example, a ceiling-embedded air conditioner.

  In FIG. 1, reference numeral 2 is a cassette-type main body casing of the ceiling-embedded air conditioner 1. The main body casing 2 is embedded in the ceiling 3 such that its intake / blowout panel (lower surface panel portion) 4 continues in substantially the same plane as the ceiling 3.

  The intake / blowout panel 4 of the main body casing 2 is provided with a square air suction grille 5 at the center, and further, a bell mouth 6 for the turbofan 11 is connected to the inside thereof via a prefilter F. It is installed.

  Further, air blowout ports 9, 9... Having a predetermined width are provided on the outer peripheral portion 4 side of the air suction grille 5 of the intake / blowout panel 4 of the main body casing 2.

  In the main body casing 2, an air flow passage 10 is formed in the entire circumferential direction from the air suction grille 5 through the bell mouth 6 to the air outlets 9, 9,. The air suction side (the air suction side end portion 15a of the shroud 15 to be described later) of the passage 10 is located on the outer periphery of the bell mouth 6 on the outer periphery of the bell mouth 6 at the center behind the bell mouth 6 (the upper part in the figure). The fitted turbo fan 11 is suspended from the ceiling panel 2 a of the main body casing 2 via a fan motor 13.

  The air flow path 10 is provided with an air heat exchanger 12 so as to surround the turbofan 11.

  On the other hand, the turbo fan 11 has a circular hub (main plate) 14 fixed to the rotational drive shaft 13a of the fan motor 13 and a cylindrical tube having a different diameter on the other end side that forms an air suction port in the centrifugal direction in the turbo fan impeller. Are arranged side by side in the circumferential direction with a predetermined blade angle and a predetermined blade interval. On the other hand, in the air suction side end portion 15a of the shroud 15, a downstream air outlet portion 6c of the bell mouth 6 is loosely fitted with a predetermined dimension so as to be relatively rotatable with a predetermined gap.

  The bell mouth 6 centrifuges the air from the main body casing 2 side air suction grille 5 with respect to the air suction side end 15a of the shroud 15 forming the air suction port of the turbo fan impeller. In order to smoothly flow in the direction, as shown in the figure, a predetermined curvature radius extending inwardly from the mounting edge 6a to the intake / blowout panel 4 and gradually reducing the opening diameter from the air flow upstream side to the air flow downstream side The air flow guide surface is composed of an air inlet portion 6b made of a circular arc surface and an air outlet portion 6c extending on an extension line of the air inlet portion 6b.

  And the aerodynamic noise generated at the time of blowing by smoothly guiding the air on the suction side of the turbofan impeller in the centrifugal direction on the suction side on the suction side corresponding to the shroud 15 of the turbofan impeller due to its shape. We try to reduce it as much as possible.

  In the case of this embodiment, the air suction side end of the shroud 15 is further provided on the outer peripheral side of the air outlet port 6c of the bell mouth 6 that is loosely fitted inside the air suction side end portion 15a of the shroud 15. A seal wall 6d covering the portion 15a is provided so as to form a U-shaped cross section.

  Accordingly, a pocket portion 21 having a U-shaped cross section as shown in the figure is formed on the outer periphery of the air outlet 6c of the bell mouth 6, and the pocket portion 21 having the same U-shaped cross section is formed. Due to the presence, the length of the flow path itself of the leakage flow B becomes longer and the flow resistance corresponding to the leakage flow B increases, and the leakage flow itself makes a U-turn in the U-shaped groove of the pocket portion 21. Since it comes to flow, airflow resistance rises still more greatly.

  As a result, the amount of leakage flow B is greatly reduced, fan efficiency is improved, and separation on the blade suction surface side due to interference with the main flow A ′ near the shroud 15 is effectively suppressed.

  As a result, aerodynamic noise is effectively reduced as compared with the conventional centrifugal blower.

  Further, in this case, the seal wall 6d forming the pocket portion 21 is formed to extend longer in an arc shape on the shroud 15 side than the air outlet portion 6c of the bell mouth 6.

  According to such a configuration, the length of the flow path of the above-described leakage flow B can be increased, the amount of the above-described leakage flow can be more effectively reduced, and fan efficiency is further improved.

  Moreover, the inner wall surface of the continuous part with respect to the air outflow port part 6c of the bell mouth 6 of the seal wall 6d which forms the said pocket part 21 is formed in the groove surface 6e of circular arc shape in cross section.

  According to such a configuration, the leakage flow B flowing in the U-turn as described above flows more smoothly in the U-turn, so that the disturbance of the leakage flow is further reduced, and the leakage flow and the blades 16, The aerodynamic noise due to the collision with 16... Is further effectively reduced.

  In this case, the minimum distance between the air outlet 6c of the bell mouth 6 and the air suction side end 15a of the shroud 15 and the minimum distance between the seal wall 6d and the air suction side end 15a of the shroud 15 are used. Are formed to be substantially equal.

  According to such a configuration, the distance between the shroud 15 and the inner bell mouth 6 is constant both inside and outside, and even if rotational blurring or misalignment occurs, it is difficult to cause contact.

  As a result, according to this embodiment, a high-performance centrifugal fan with low aerodynamic noise and high air blowing performance and a high-performance air conditioner with high air blowing performance and low noise using the same are provided. Will be able to.

(Modification)
Next, FIG. 3 shows the structure of a centrifugal blower according to a modification of the best embodiment 1 of the present invention applied to the ceiling-embedded air conditioner.

  For example, as shown in FIG. 3, this centrifugal blower is a centrifugal blower according to the configuration of the best embodiment 1 described above, and the radial direction is increased as the inner diameter of the downstream air outlet portion 6 c of the bell mouth 6 is directed toward the downstream side. It is characterized by being configured to be expanded outward (the opening angle θ is expanded outward with respect to the extension line of the inner wall surface of the air outlet 6c of the bell mouth 6 in FIG. 1).

  As a result, the inner wall surface of the air outlet portion 6c of the bell mouth 6 is smooth along the air flow guide surface having a smooth circular arc surface in the oblique flow centrifugal direction downstream of the air suction side end portion 15a of the shroud 15. It becomes a continuous arc-shaped airflow guide surface, and the airflow passing through the air outlet 6c of the bell mouth 6 follows the surface of the shroud 15. As a result, separation of the flow of the main flow A from the bell mouth 6 side to the shroud 15 side is reduced, and smooth blowing from the blades 16, 16.

  Therefore, it is possible to improve the air blowing performance more effectively in combination with the improvement of fan efficiency and reduction of aerodynamic noise by reducing the leakage flow B amount by the seal wall 6d described above.

It is sectional drawing of the whole structure which shows the structure of the centrifugal blower which concerns on the best Embodiment 1 of this invention applied to the ceiling embedded type air conditioner. It is an expanded sectional view of the important section showing composition between a shroud and bell mouth of the centrifugal blower. It is an expanded sectional view of an important section showing composition between a shroud and bell mouth concerning a modification of the centrifugal blower. It is sectional drawing of the whole structure which shows the structure of the conventional centrifugal blower applied to the ceiling embedded type air conditioner. It is an expanded sectional view of the important section showing an operation (problem) of the centrifugal blower.

Explanation of symbols

  6 is a bell mouth, 6c is an air outlet, 6d is a sealing wall, 10 is an air flow path, 11 is a turbo fan, 14 is a hub, 15 is a shroud, 15a is an air suction side end, 16 is a blade, 21 is It is a pocket part.

Claims (6)

  A circular hub fixed to the rotary drive shaft, a plurality of rearwardly facing blades fixed side by side in the circumferential direction of the hub, a shroud fixed to the anti-fixed end side of the blades and forming an air inlet; In a centrifugal blower comprising a bell mouth in which an air outlet portion is loosely fitted within an air suction side end portion of the shroud, the bell mouth air outlet portion is loosely fitted inside the shroud. A centrifugal blower characterized in that a seal wall covering the air suction side end of the shroud is provided on the outer periphery so as to form a U-shaped cross section.   The centrifugal blower according to claim 1, wherein the seal wall is formed to extend longer to the shroud side than the air outlet portion of the bell mouth.   The centrifugal blower according to claim 1 or 2, wherein the air outlet portion of the bell mouth is expanded in a circular arc shape from the suction side to the outlet side.   The centrifugal blower according to claim 1, 2, or 3, wherein the inside of the continuous portion of the seal wall with respect to the air outlet port of the bell mouth is formed in a concave groove surface having an arcuate cross section.   The minimum distance between the air outlet portion of the bell mouth and the shroud and the minimum distance between the seal wall and the shroud are formed to be substantially equal to each other. Or the centrifugal blower of 4.   The centrifugal blower according to claim 1, 2, 3, 4, or 5, wherein the centrifugal blower is configured as a blower of an indoor unit for an air conditioner.

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