Blade System for Fans for Industrial Use

Abstract

Described herein is a blade system (10) for fans for industrial use, comprising:—a blade (12), which extends longitudinally along a first reference axis (K) and defines within it a cavity (12A), wherein said blade has a cross section with flattened profile and is oriented with a major dimension (L1) along a second reference axis (H); and—a supporting unit (14), on which said blade (12) is fixed and which is inserted within the cavity (12A) of said blade, said supporting unit (14) being designed to be connected to the rotor (2) of a fan. The system is characterized in that: said cavity (12A) of said blade (12) has a cylindrical conformation and a cross section with flattened profile and is oriented with its major dimension (L2) along said second reference axis (H); and said supporting unit (14) comprises a tubular bar (16), which has a cross section with flattened profile and is oriented with a major dimension (L3) along said second reference axis (H), or else a first tubular bar (26A) and a second tubular bar (26C) with circular cross section, which are arranged alongside one another along said second reference axis (H).

Claims

1. A blade system for fans for industrial use, comprising: a blade, which extends longitudinally along a first reference axis and defines within it a cavity, wherein said blade has a cross section with flattened profile and is oriented with a major dimension along a second reference axis; and a supporting unit, on which said blade is fixed and which is inserted within the cavity of said blade, said supporting unit being designed to be connected to the rotor of a fan, said blade system being characterized in that: said cavity of said blade has a cylindrical conformation and a cross section with flattened profile and is oriented with a major dimension along said second reference axis; and said supporting unit comprises a tubular bar, which has a cross section with flattened profile and is oriented with a major dimension along said second reference axis, or else a first tubular bar and a second tubular bar with circular cross section, which are arranged alongside one another along said second reference axis.

2. The system according to claim 1, wherein the cross section of said tubular bar has a profile comprising two circular portions joined together by two opposed intermediate portions.

3. The system according to claim 2, wherein said two circular portions each reproduce an arc of a circle defined by an angle greater than 180°, even more preferably greater than 270°.

4. The system according to claim 3, wherein said two circular portions (16A, 16C) have the same size or in any case have a difference between their areas of less than 15%.

5. The system according to claim 1, wherein said first and second tubular bars have the same size or in any case have a difference between their areas of less than 15%.

6. The system according to claim 1, wherein the cross section of said tubular bar has a flattened profile selected from one of the following: rectangular, elliptical, trapezial, rhomboidal, etc.

7. The system according to claim 1, wherein said first and second bars are arranged in contact with one another, or in any case at a distance apart that is negligible with respect to their longitudinal dimension.

8. The system according to claim 1, wherein said first and second bars are joined together via connection members.

9. The system according to claim 1, comprising at least one adapter, which is prearranged for receiving said tubular bar or said first and second tubular bars, and for setting itself within said cavity between the walls of said cavity and said tubular bar or said first and second tubular bars.

10. The system according to claim 1, further comprising a positioning member, which is prearranged for connecting said supporting unit to the rotor of the fan, providing the possibility of varying the orientation of the blade about said first reference axis.

11. The system according to claim 10, wherein said positioning member comprises two opposed shaped elements, which are prearranged for gripping between them said tubular bar or said first and second bars and define, as a whole, an outer cylindrical surface.

12. The system according to claim 11, wherein said two opposed elements are prearranged for defining an internal passage, which is traversed by said bar, or by said first and second bars, and is delimited by walls that follow the external profile of said bar or of said first and second bars.

13. The system according to claim 2, wherein said two circular portions have the same size or in any case have a difference between their areas of less than 15%.

14. The system according to claim 6, wherein said first and second bars are arranged in contact with one another, or in any case at a distance apart that is negligible with respect to their longitudinal dimension.

15. The system according to claim 5, wherein said first and second bars are joined together via connection members.

16. The system according to claim 6, wherein said first and second bars are joined together via connection members.

17. The system according to claim 7, wherein said first and second bars are joined together via connection members.

18. The system according to claim 8, comprising at least one adapter, which is prearranged for receiving said tubular bar or said first and second tubular bars, and for setting itself within said cavity between the walls of said cavity and said tubular bar or said first and second tubular bars.

19. The system according to claim 9, further comprising a positioning member, which is prearranged for connecting said supporting unit to the rotor of the fan, providing the possibility of varying the orientation of the blade about said first reference axis.

20. The system according to claim 19, wherein said positioning member comprises two opposed shaped elements, which are prearranged for gripping between them said tubular bar or said first and second bars and define, as a whole, an outer cylindrical surface.

Description

[0017] FIG. 1 represents, according to an axonometric view, a fan for industrial use provided with a blade system of the type described herein;

[0018] FIG. 2 represents a blade system of the type described herein according to a preferred embodiment;

[0019] FIG. 3 represents a detail of the blade system of FIG. 2, according to an axonometric view;

[0020] FIG. 4 represents a cross-sectional view of the blade system of FIG. 2, according to the plane of section IV-IV of the same figure;

[0021] FIG. 5 represents an alternative embodiment of the blade system described herein; and

[0022] FIG. 6 illustrates a cross-sectional view of the blade system of FIG. 5, according to the plane of section V-V of the same figure.

[0023] Illustrated in the ensuing description are various specific details aimed at enabling an in-depth understanding of the embodiments. The embodiments may be provided without one or more of the specific details, or with other methods, components, or materials, etc. In other cases, known structures, materials, or operations are not illustrated or described in detail so that various aspects of the embodiment will not be obscured.

[0024] The references used herein are provided only for convenience and hence do not define the sphere of protection or the scope of the embodiments.

[0025] With reference to FIG. 1, this illustrates an industrial fan 1 comprising a rotor 2 rotatably mounted about a vertical axis Z, and a plurality of blades 10, which are arranged about the rotor 2 and fixed to the latter via connection devices 6.

[0026] According to the solution described herein, each blade 10 is constituted by a blade system comprising: [0027] a blade 12, which extends longitudinally along a reference axis K; and [0028] a supporting unit 14 to which the blade 12 is fixed and which is designed to be connected to the rotor 2, in the way illustrated in FIG. 1, via a connection device 6.

[0029] The blade 12 has a cross section with flattened profile and is oriented with a major dimension L1 (aerodynamic chord) set in a direction parallel to a reference axis H (FIG. 4). The profile of the blade 12 is a conventional aerodynamic profile determined as a function of the performance required by the specific applications.

[0030] To return to FIG. 1, in the condition where the blade 12 is installed on the rotor 2, the blade 12 itself has its reference axis K oriented radially with respect to the axis of rotation Z and the reference axis H oriented in a direction transverse to both of the two axes Z and K.

[0031] The blade 12 has a cavity 12A inside it, inserted in which is the supporting unit 14 to provide mutual connection of the two components.

[0032] For instance, the above connection may be obtained via screws (not illustrated), which are inserted, from outside, into the blade 12 and come to engage the supporting unit 14 housed within the cavity 12A of the blade. In any case, other modes of connection are likewise possible, for example via gluing.

[0033] The supporting unit 14 projects from the blade 12 with an end portion 14A of its own that is designed for connection to the rotor 2 of the fan.

[0034] According to an important characteristic of the blade system described herein, the cavity 12A of the blade 12 extends along the axis K having a cylindrical conformation with a cross section having a flattened profile oriented so as to set a major dimension L2 along the reference axis H.

[0035] Moreover, the supporting unit 14 comprises a tubular bar 16, having, in a similar way, a cross section with flattened profile and oriented so as to set a major dimension L3 along the same reference axis H.

[0036] Preferably, the two sections, namely, that of the internal cavity 12A and that of the tubular bar 16, have shapes and dimensions such as to enable provision of a mutual shape fit between the blade 12 and the bar 16. Alternatively, it is possible to envisage one or more adapter elements prearranged for being set between the walls of the internal cavity 12A and the tubular bar 16.

[0037] The aforesaid configuration provides a supporting structure of the blade that makes it possible to bestow on the blade system a greater strength, without thereby having to increase the external dimensions of the blade 12.

[0038] Given the same external dimensions of the blade, the system described herein hence presents a greater strength as compared to the known solutions mentioned at the start. In particular, the present applicant has been able to verify that the system described herein is characterized by a considerably higher bending strength and a considerably higher natural frequency of the blade; this latter aspect is fundamental for moving the fan away from typical conditions of resonance to which the blades may be subject.

[0039] In preferred embodiments, as in the one illustrated, the tubular bar 16 has a cross section with a profile that comprises two substantially circular portions 16A, 16C joined together by two opposed intermediate portions 16B, 16B′.

[0040] Preferably, the two circular portions 16A, 16C each reproduce an arc of a circle defined by an angle greater than 180°, even more preferably greater than 270°.

[0041] In preferred embodiments, as in the one illustrated, the two portions 16A, 16C are of the same size, or in any case the corresponding resistant areas (meaning thereby the areas of the annuli defined by the two portions) present a difference between them of less than 15%.

[0042] In alternative embodiments, the tubular bar 16 may present a flattened profile of some other type, for example rectangular, elliptical, trapezial, rhomboidal, etc.

[0043] On the other hand, the cavity 12A may present a cross section that reproduces the external profile of the blade 12, as in the example illustrated.

[0044] In preferred embodiments, as in the one illustrated, the cavity 12A is delimited by the outer wall 12B, which identifies the external profile of the blade, and by an inner wall 12C, which performs a function of reinforcement of the structure of the blade 12.

[0045] Preferably, the cross section of the tubular bar 16 identifies a dimension L4, in a direction transverse to the reference axis H, which is substantially equal to the dimension identified, in the same direction and in the corresponding region, by the cavity 12A, so as to provide a shape fit between the cavity 12A and the tubular bar 16. In the example illustrated, such a correspondence is present for each of the two circular portions 16A, 16C. The shape fit referred to may or may not be of a forced type.

[0046] To return to FIG. 1, the blade system described herein further comprises a positioning member 18, which is prearranged for connecting the supporting unit 14 to the rotor 2, providing the possibility of varying the orientation or inclination of the blade 12 about the reference axis K.

[0047] In preferred embodiments, as in the one illustrated, the member 18 comprises two opposed shaped elements 18A, 18B, which are prearranged for gripping between them the tubular bar 16, at its end portion, and for defining, as a whole, an outer cylindrical surface 18C. Preferably, the two elements 18A, 18B moreover define an internal passage 18D, traversed by the bar 16, which is delimited by walls 18D′ that follow, at least partially, the profile of the bar itself.

[0048] The positioning member 18 is designed to be received within a seat 6A, having a corresponding shape and size, which is made in the connection device 6. The coupling of a rotary type thus obtained between the connection device 6 and the positioning member 18 makes it possible to vary the orientation or inclination of the blade 12 about the reference axis K. Blocking members (not illustrated) block the blade 12 in position after it has been set in the pre-set orientation or inclination.

[0049] With reference now to FIGS. 5 and 6, these represent an alternative embodiment in which the supporting unit 14 provides, instead of the tubular bar 16, two distinct tubular bars 26A, 26C, which are received within the cavity 12A according to an arrangement in which they are set alongside one another along the reference axis H. The two bars 26A, 26C each have a circular cross section.

[0050] Preferably, the two bars 26A, 26C are arranged in contact with one another, or in any case at a negligible distance apart with respect to their longitudinal dimension.

[0051] The person skilled in the branch will understand that the two bars 26A, 26C substantially perform the same structural function as the two circular portions 16A, 16C of the tubular bar 16 of the previous embodiment.

[0052] Preferably, the two bars 26A, 26C are joined together via purposely provided connection members, for example belts, tapes, brackets, etc.

[0053] On the other hand, the teachings and considerations already expressed above also apply to this embodiment. In particular, it will be noted that the positioning member 18 may be prearranged for receiving the two bars 26A, 26C together.

[0054] Advantageously, the blade system described herein may also envisage one or more additional bars to be set inside the tubular bar 16 or inside the two bars 26A, 26C, according to the teachings of the document No. EP3218608 A1 mentioned above.

[0055] Of course, without prejudice to the principle of the invention, the details of construction and the embodiments may vary, even significantly, with respect to what has been illustrated herein purely by way of non-limiting example, without thereby departing from the scope of the invention, as defined by the annexed claims.