RU2426013C2 - Centrifugal blower, primarily, for exhaust hoods and flue exhaust devices - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: additionally, centrifugal blower comprises flow separator. Note here that free edge of at least one flow separator extension has at least first and second curved sections extending each other with curvature radii of opposite sign to form point of flexure in joint zone, said extension being located in lateral projection of second plane perpendicular to second axis. Note also that housing half-ring, closest to midplane, features convex curvature with relevant curvature radius with its center located on section of second plane of coordinates incorporating second axis.

EFFECT: separation of liquid vapors, reduced noise.

18 cl, 6 dwg

Description

The present invention relates to a centrifugal fan having the characteristics mentioned in the restrictive part of independent clause 1.

The invention relates especially, but not exclusively, to the field of centrifugal fan technology for use in exhaust hoods or smoke exhaust devices.

In a particular field of known solutions, fans of the aforementioned type, as well known, are used as suction devices for vapors, combustion smoke, exhaust gases or in all those applications in which the removal and movement of mainly gas mixtures is provided. Typical embodiments include the use of centrifugal fans with a spiral casing having a cylindrical drum-type fan wheel and axially extending blades. The housings of these fans are additionally provided with a side suction opening and a tangential outlet, between which a pressure chamber passes, following in a spiral direction and the volume of which is determined between the housing and the fan wheel.

In the fans of the aforementioned type, it is known to carry out, inside the pressure chamber, in the area behind the outlet, a flow separator, usually containing an appendage, located in the body in the area having the smallest radial distance between the fan wheel and the spiral profile of the body, in which the resulting exhaust flow (directed tangentially) passes near the flow introduced by suction into the fan wheel (with a small cross section of the spiral chamber of the fan). An example of a fan containing such a stream splitter is known from European Patent Application No. 1462658.

Such separators despite the fact that, on the one hand, they provide the possibility of improving the characteristics of the separation and release of gaseous liquids treated with a fan, on the other hand, they lead to noisy work, in particular, generated by the passage of the blades into the area of the separator. The attempt to reconcile both of these aspects, opposing one another, forced the compromise in the prior art to offer compromise solutions, one of which is described in the European application mentioned above, in which the separator is configured as a tongue extending partially into the pressure chamber and having an edge profile of said tongue containing double successive bevels located at a distance at the formation stage.

The main objective of the invention is to provide a centrifugal fan equipped with a flow separator of the aforementioned type, which provides the possibility of improving, with respect to known solutions, the overall output, ensuring adequate separation of liquids and at the same time minimizing the noise produced by the separator, to improve overall efficiency .

This task is achieved by means of a centrifugal fan, made in accordance with the following claims.

Additional features and advantages of the invention will become clearer from the following detailed description of an exemplary embodiment, illustrated using a non-limiting example, with reference to the accompanying drawings, in which:

- figure 1 is a partial perspective view of a centrifugal fan made according to the invention,

- figure 2 is a perspective view of a fan element in figure 1,

- figure 3 is a perspective view of another element of the fan of figure 1,

- figure 4 is a schematic top view of the element in figure 2,

- figure 5 is a schematic front view of the element in figure 2,

- Fig.6 is an additional perspective view of a fan element according to the invention.

With reference to the figures, reference numeral 1 denotes a centrifugal fan, in particular, made for use in exhaust hoods or in exhaust devices for smoke and made in accordance with the present invention.

The fan 1 comprises a casing 2 with a spiral external profile, which is formed by two half shells 2a, 2b of the casing, adapted to be removably connected to one another in the connection plane schematically indicated in the drawings P. The two half shells of the casing are configured with substantially mirror symmetry with respect to the connection plane P, as shown in the assembled state in figure 3, with the exception of the longitudinal suction holes provided only on one of the two half shells of the housing.

A drum-type cylindrical fan wheel 3 is mounted in the housing 2, provided with axially extending blades 4, and the fan wheel is adapted to rotate about the X axis. Also, a tangential outlet 5 is formed in the housing, coaxial with the axis marked Y tangentially to the wheel fan, and a second side suction port 6, coaxial with the X axis.

Reference numeral 7 denotes a pressure chamber formed inside the housing along its spiral direction, the volume of which is defined between the drum of the fan wheel 3 and the profile 3b of the inner surface of the housing itself.

The fan also comprises a flow separation device, indicated as a whole, 8, which is located in an area having the smallest radial distance between the fan wheel 3 and the profile 3b of the inner surface of the housing. This area is indicated in the drawings M.

In more detail, the stream splitter 8 is formed together by a pair of appendages 9, each of which is formed in a corresponding half shell 2a, 2b of the housing, and is also preferably made with mirror symmetry with respect to the median plane P of the joint of the half shells, as shown in FIG. 3. Owing to this symmetry, only one of the appendages 9, forming a flow separator, which is related to the half-shell 2a of the housing, will be described in detail below, it being understood that another appendage, not specified elsewhere, is structurally identical and also symmetrical in mirror image relative to the plane P.

To describe the separator 8 below, a specific reference is made to FIGS. 4 and 5, the drawing planes of which, designated Q and W, respectively, should be considered, respectively, as the lateral projection planes of the half-shell 2a relative to the perpendicular to the X axis (FIG. 4) and Y axis ( figure 5).

The protrusion of the appendage 9 in the Q plane of Fig. 4 extends essentially along the arc B of the circle, extending into the extension of the inner spiral profile 3b of the housing, and also protruding into the pressure chamber, behind the outlet 5. The appendage is made, preferably, in one piece with the corresponding half-shell housing and has a free edge 10 at its free end, the opposite wall of the housing, the profile of which is also clearly shown in the side projection of the plane W in figure 5. In this projection plane, according to the main feature of the invention, the profile of the free edge 10 of the appendage 9 contains at least the first and second curved sections 10a, 10b, in the extension of each other, having the corresponding radii of curvature R1, R2 of the opposite sign, as well as forming a bending point F in the connection zone. In addition, the portion 10a that is closest to the median plane P of connecting the shell half shells has convex curvature, the radius of curvature R1 of which has a center in the portion of the projection plane W of FIG. 5 containing the Y axis. To locate the bend point F in the projection plane on 5 should refer to a two-dimensional coordinate system with orthogonal axes, which are contained in the projection plane and have a center at the point of intersection between the plane W and the Y axis, with the x axis x perpendicular to the median plane P, and the y axis, parallel of the median plane P. With respect to this coordinate system, the bend point has coordinates (x, y) such that the ratio (x / D) between the abscissa and the outer diameter of the fan wheel, this diameter is indicated by D, is chosen to have a value between 0.04 and 0.185, and the ratio (y / D) between the ordinate and the outer diameter D of the fan wheel is between 0.04 and 1.11.

As shown in FIG. 5, the radius of curvature R1 of the first portion 10a is selected to have a value such that the ratio between the radius R1 and the outer diameter D of the fan wheel is between 1.11 and 0.04, and is also preferably approximately 0.085.

The radius of curvature R2 of the second portion 10b is selected to have a value such that the ratio between the radius R2 and the outer diameter D of the fan wheel is between 0.04 and 1.11, and also preferably approximately 0.16.

In addition, portions 10a, 10b can be suitably enlarged in the projection plane W so as to end on the median plane P and on the semicircular bottom of the outlet. Alternatively, it is possible for these sections to be connected, in turn, on the opposite side of the bending zone with additional sections of the free edge 10, as shown in FIG.

In particular, it is possible that the curved section 10a increases, on the opposite side from the bend F, to the third section 10c, which is substantially straight and also extends to the median plane P, and that the curved section 10b grows accordingly in the fourth curved section 10d.

The straight portion 10c is furthermore inclined, in the projection plane W, relative to the perpendicular to the median plane P, with the formation of an inclination angle A having a value between 0 ° and 45 °.

The fourth portion 10d has a radius of curvature denoted by R4 of the same direction as the radius of curvature R2 of portion 10b. The radius of curvature R4, in addition, is selected so as to have a value such that the ratio (R4 / D) between the radius of curvature itself and the outer diameter of the fan wheel is between 0.04 and 1.11.

Returning to the projection plane Q in FIG. 4, a two-dimensional coordinate system to the orthogonal axes that are contained in the W plane and have a center at the intersection between the W plane and the X axis, with the x-axis x 'parallel to the Y axis will be mentioned. Relative of this coordinate system, the point S at which the center of the radius of curvature R 'of the arc of the circle, which determines the curved direction of the appendage 9 in the projection plane Q, has coordinates (x', y ') such that the ratio (x' / D) between its the abscissa and the outer diameter D of the wheel the fan is selected so that it has a value between 0 and 0.5, and the ratio (y '/ D) between the ordinate and the outer diameter D of the fan wheel has a value between 0 and 0.5.

In addition, the radius of curvature R 'of the arc B is selected so that it has a value such that the ratio (R' / D) between it and the diameter D of the fan wheel is between 0.15 and 0.6, and also preferably approximately 0.3.

As for the circumferential length of the arc B, the angle E opposite to that arc is chosen to have a value between 15 ° and 90 °, preferably equal to 35 °.

An arc B is also provided for the development of the appendage in the Q plane to continue, in the rectilinear zone M (with the value of the ratio M '/ D between 0 and 0.3, where M' is the distance indicated in FIG. 4), starting from the starting point of the spiral.

According to additional features of the invention, it is provided that the profile of the spiral surface of the fan wheel, with reference to its projection in the Q plane of FIG. 4, be connected behind the outlet with the fifth and sixth curved sections 12a, 12b having the radii of curvature R5, R6 of opposite sign and defining the bending point F 'in the connection zone. In particular, it is envisaged that the portion 12b, which is closest to the outlet, has convex curvature with a radius of curvature having a center in the projection plane on the opposite side from the X axis with respect to the portion.

The bend point F 'is further located relatively above a certain coordinate system x', y ', with corresponding coordinates such that the ratio (x ”/ D) between its abscissa and the diameter D of the fan wheel is between 0 and 0.95, and the ratio ( y ”/ D) between its ordinate and diameter D is between 0.4 and 1.4. The radius of curvature R5 of the fifth portion 12a is selected to have a value such that the ratio R5 / D between said radius and the diameter of the fan wheel is between 0 and 9.5.

Furthermore, the radius of curvature R6 of the sixth portion 12b is suitably selected to have a value such that the ratio R6 / D between the radius and the diameter of the fan wheel is between 0 and 5.

With respect to FIG. 6, reference 15 schematically designates a pressure receiver, for example, made in the form of an opening or a through hole provided in the housing of one appendage 9, forming a flow splitter 8. A hole 15, mainly provided in one piece with the splitter 8, is provided behind the fan outlet 5 and can be suitably used to place a pressure sensor, for example, designed to determine the flow rate released by the fan, or to signal off pressure, without noticeable intersection with the flow and, therefore, without changing the design of the device.

Claims (18)

1. A centrifugal fan, comprising a housing (2) with a spiral external profile defined by a pair of half shells (2a, 2b) adapted to be connected to one another, a fan wheel (3) mounted in the housing (2) and adapted to rotate around the first axis (X), while in the housing (2) there is formed a side suction hole (6), coaxial with the first axis (X), and a tangential outlet (5), coaxial with the second axis (Y), tangentially directed to the wheel (3 ) fan, pressure chamber is formed inside the housing (2) (7) having a volume defined between the fan wheel (3) and the inner spiral profile (3b) of the housing (2), the fan further comprising a flow splitter (8) located in the zone (M) having the smallest radial distance between the wheel (3) the fan and the inner profile (3b) of the housing, while the flow separator (8) is formed together by a pair of appendages (9), each of which is formed in the corresponding half-shell (2a, 2b) of the housing, and the protrusion of each of the appendages (9) in the first plane (Q) perpendicular to the first axis (X), n passes essentially along the arc of a circle (B), extends into the extension of the internal spiral profile (3b) of the housing (2), and also protrudes into the pressure chamber behind the outlet (5), characterized in that the free edge (10) of at least one of the appendages (9) of the flow separator (8) has in lateral projection onto a second plane (W) perpendicular to the second axis (Y) at least the first and second curved sections (10a, 10b) in continuation of each other having radii of curvature (R1, R2) of the opposite sign and forming a bend point (F) in the area with of unity, with the portion (10a) closest to the median plane (P) of the connection of the half shells (2a, 2b) of the body, has convex curvature with a corresponding radius (R1) of curvature centered in the portion of the second plane (W) of the projection containing the second axis ( Y). 2. The fan according to claim 1, wherein relative to the first two-dimensional coordinate system with orthogonal axes (x, y), which are contained in the second plane (W) and have a center at the intersection between the second plane (W) and the second axis (Y) , with the abscissa axis (x) perpendicular to the median plane (P) and the ordinate axis (y) parallel to the median plane, the bend point (F) has coordinates such that the ratio (x / D) between the abscissa (x) and the outer diameter (D) the wheels (3) of the fan are between 0.04 and 0.185, and the ratio (y / D) between the ordinate (y) and the outer diameter (D) is Scaffolding (3) of the fan is between 0.04 and 1.11. 3. The fan according to claim 1 or 2, in which the radius of curvature (R1) of the first section (10a) is selected from such a value that the ratio between the radius (R1) and the outer diameter (D) of the wheel (3) of the fan is between 0.04 and 1.11. 4. The fan according to claim 1, in which the radius of curvature (R2) of the second section (10b) is selected from such a value that the ratio between the radius (R2) and the outer diameter (D) of the fan wheel (3) is between 0.04 and 1 ,eleven. 5. The fan according to claim 1, in which in the second plane of the projection (W), the first curved section (10a) extends on the opposite side from the bend point (F) to the third curved section (10c) extending to the median plane (P) of the half shell connection (2a, 2b) of the housing. 6. The fan according to claim 5, in which the third curved section (10c) is inclined relative to the perpendicular to the median plane (P) of the connection of the half shells (2a, 2b) with the formation of an angle between 0 ° and 45 °. 7. The fan according to claim 5, in which in the second plane (W) of the projection, the second curved section (10b) extends on the opposite side from the bend point (F) to the fourth curved section (10d). 8. The fan according to claim 7, in which the fourth curved section (10d) has a radius of curvature (R4) in the same direction as the radius of curvature (R2) of the second section (10b). 9. The fan according to claim 7 or 8, in which the radius of curvature (R4) of the fourth section (10d) is selected from such a value that the ratio between the radius of curvature (R4) and the outer diameter (D) of the fan wheel (3) is between 0, 04 and 1.11. 10. The fan according to claim 1, in which the appendages (9) in each respective half-shell (2a, 2b) of the housing, together forming a flow splitter (8), are symmetrical in mirror image relative to the median plane (P) of the connection of the corresponding half-shells (2a, 2b) enclosures. 11. The fan according to claim 1, in which relative to the second two-dimensional coordinate system with orthogonal axes (x ', y'), which are contained in the said second plane (Q) of the projection, have a center at the intersection between the first plane (Q) and the first axis (X), with the abscissa axis (x ') parallel to the second axis (Y), the point (S) at which the radius of curvature (R') of the arc of the circle (B) is centered has coordinates such that the ratio (x '/ D) between its abscissa and the outer diameter (D) of the fan wheel (3) is between 0 and 0.5, and the ratio (y '/ D) between the ordinate and the outer diameter (D) the wheel (3) of the fan is between 0 and 0.5, with the center of curvature (S) located on the opposite side of the arc (B) with respect to a plane containing the first axis (X) and perpendicular to the second axis (Y). 12. The fan according to claim 11, in which the angle (E) of the circumferential deployment of the arc (B) is between 15 ° and 90 °. 13. The fan according to claim 1, in which the protrusion in the first plane (Q) of the spiral profile of the housing on the opposite side of the separator (8) is connected behind the outlet (5) with the fifth and sixth curved sections (12a, 12b) having radii of curvature (R5, R6) of the opposite sign and forming a bend point (F ') in the connection zone, while the sixth section (12b) closest to the outlet (5) has convex curvature with a corresponding radius of curvature (R6), centered on the first the projection plane (Q) on the opposite side of the first axis (X) relates flax curved section (12b). 14. The fan according to claim 11, in which relative to the second planar coordinate system to the orthogonal axes (x ', y'), which are contained in the first projection plane (Q), the second bend point (F ') has coordinates (x ", y ") such that the ratio (x" / D) between its abscissa and the outer diameter (D) of the fan wheel (3) is between 0 and 0.95, and the ratio (y "/ D) between the ordinate and the outer diameter (D) the wheel (3) of the fan is between 0.4 and 1.4. 15. The fan according to item 13, in which the radius of curvature (R6) of the sixth section (12b) is selected from such a value that the ratio between the radius of curvature (R6) and the outer diameter (D) of the fan wheel (3) is between 0 and 5. 16. The fan of claim 13, wherein the radius of curvature (R5) of the fifth portion (12a) is selected from a value such that the ratio between the radius (R5) of the curvature and the outer diameter (D) of the fan wheel (3) is between 0 and 9, 5. 17. The fan according to claim 1, containing an opening (15) in at least one of the above-mentioned appendages (9), comprising a pressure receiver for a fan or a socket for receiving a pressure sensor. 18. The fan according to claim 17, in which the hole (15) is made in one piece with the corresponding appendage (9) of the flow separator (8).

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