DE202015102578U1 - Eben Strömungsleitgitter - Google Patents

Abstract

Strömungsleitgitter formed as Vorleitgitter for arrangement at a suction of a fan, wherein it has around an axial center line (ML) a lattice web structure, the circumferentially spaced radial webs (2) and radially spaced coaxial circumferential webs (3, 4) and an outer ring (5 ), wherein an inflow side of the Strömungsleitgitters (1) extends flat and parallel to a radial plane of the Strömungsleitgitters (1).

Description

The invention relates to a Strömungsleitgitter formed as Vorleitgitter for arrangement at the intake of a fan.

Vorleitgitter are known from the prior art in various designs and variants, in particular in a curved shape or as a spherical cap. Corresponding disclosures can be found, for example, in the patent applications DE 10 2014 116 047 A . EP 2 778 432 A1 or DE 1 052 624 B ,

The derived from the applicant and known from the prior art Strömungsleitgitter or flow rectifiers work very well in practice, but require due to their curvature in the axial direction of a certain space in order to function optimally. In tight installation conditions, the curved shape is therefore not always advantageous.

The invention is therefore based on the object to provide a Strömungsleitgitter that compared to the known from the prior art solutions in the axial direction has a smaller footprint, while maintaining the performance at least and the noise is at least not increased. It is another object of the invention to develop a fan with a corresponding Strömungsleitgitter to a compact unit.

These objects are achieved by the combination of features of the respective independent claims.

According to the invention a Strömungsleitgitter is designed as Vorleitgitter for arrangement at a suction of a fan, which has an axial center line a grid web structure, the circumferentially spaced radial webs and radially spaced coaxial circumferential webs and an outer ring comprises. In the Strömungsleitgitter while the inflow side extends flat and parallel to one of its radial planes. The flat, planar extension allows utilization of the minimization of turbulence in the intake on the inflow side of the Strömungsleitgitters even in tight installation conditions.

To further reduce the required axial space is provided in an embodiment of the invention that the Strömungsleitgitter is flat and the ratio of its maximum outer diameter D ₃ (inside width) to its axial total height H in a range of 6-25, preferably 10-15 is fixed. The flat geometry in the mentioned value range leads to low construction heights of the flow guide on the fan and favors a compact overall structure.

In an advantageous embodiment, it is provided that in a central region of the Strömungsleitgitters around its axial center line a central opening is formed with an inflow-side central diameter D ₁ , wherein the ratio of the central diameter D ₁ with respect to a maximum outer diameter D ₃ of Strömungsleitgitters (inside width) in a range of 1.5-6.0, preferably 2.0-2.5. The central opening is bounded radially on the outside by the first peripheral ridge and offers the possibility of arranging components of the connected fan in the region of the flow guide, so that, for example, the rotor bell extends axially into the flow guide and thus minimizes the axial assembly height of the fan together with the flow guide ,

It is further provided in a development of the invention that seen in the radial outward direction first coaxial circumferential ridge has an extension from the inflow side to an outflow side, which is inclined α relative to the axial center line by an angle radially outward. The second coaxial circumferential rib seen in the radial outward direction, in an advantageous embodiment, has an extension from the inflow side to an outflow side, which is inclined radially inwards relative to the axial center line by an angle β.

The extensions of the first and second coaxial circumferential ribs, as viewed in the radial outward direction, form an intersection in an imaginary extension of their axial end points at a distance L from the inflow side, which determines an intersection diameter D ₄ radially spaced from the axial center line, ie the circumferential webs are such aligned with each other, that imaginary extensions of a connecting line of their respective end points intersect in a plane axially spaced from the Strömungsleitgitter. The mutually facing circumferential webs produce a favorable for the fan power and noise flow at a predetermined radial distance from the axial center line.

In a likewise favorable development of the invention, the Strömungsleitgitter is characterized in that a ratio of the intersection diameter D ₄ with respect to a downstream-side outer diameter D _{3 of} the Strömungsleitgitters is set in a range of 0.01-0.8. As a further advantageous ratio according to the invention the intersection diameter D ₄ with respect to the axial distance of the intersection point L in a range of 0- 1.6 set. In addition, the ratio of the axial height H of the Strömungsleitgitters compared to the axial distance of the intersection point L in a range of 0.01-0.5 set according to the invention in a variant. The conditions of the invention ensure a supply and flow through the air sucked by the fan to and through the planar Strömungsleitgitter at a relative to curved versions not increased noise.

In the Strömungsleitgitter invention is further provided in a favorable embodiment, that seen in the radial direction of the first and second coaxial circumferential webs each have an axial extent H1, H2 parallel to the axial center line whose ratio relative to the axial height H to H1 <H2 <H is fixed , The axial extent of the radial webs increases over the respective radial length of the first peripheral ridge up to the outer ring.

The first and second coaxial circumferential webs, seen in the radial direction, are advantageously curved in a convex manner in the direction of the axial center line. The shape of the circumferential webs has a direct positive effect on the flow in the axial direction.

Furthermore, it is favorable in terms of flow, if the Strömungsleitgitter has a plurality of radial webs, which are each spaced in a circumferential angle δ of 0-20 °, preferably 15 °. The number of radial webs is an influencing factor on both the performance of the Strömungsleitgitters and the noise generated by its use.

In an advantageous variant of the invention, the grating structure of the Strömungsleitgitters has a geometry in which in an axial plan view of the inflow side between each adjacent radial webs and between the radially first and second coaxial circumferential webs grid meshes with a first diagonal extent L ₁ and between each adjacent radial webs and between the viewed in the radial direction of the second coaxial circumferential ridge and the outer ring each grid meshes are formed with a second diagonal extent L ₂ , wherein a ratio of the diagonal extents L ₁ <L _{2 is} fixed.

With respect to the outflow side is advantageous according to the invention that in an axial plan view between each adjacent radial webs and between the radially first and second coaxial circumferential webs grid meshes with a first diagonal extension (L ₃ ) and between each adjacent radial webs and between the second seen in the radial direction Coaxial circumferential ridge and the outer ring each grid meshes with a second diagonal extent (L ₄ ) are formed, wherein a ratio of the diagonal extents L ₃ <L _{4 is} fixed. The inventive geometry of the grid mesh allows increased flow in the radial outer region.

The invention also encompasses a ventilator with a drive unit and a flow guide grid described above, which is characterized in that the drive unit extends at least in sections in the axial direction into an area of the flow guide grid in order to ensure the compact construction.

In a development, it is additionally provided that the ratio of the radial distance SPm between the radial outer edge of the drive unit and the outflow-side central diameter D _{2 of} the central opening and the inflow-side central diameter D _{1 is set} to a value less than or equal to 0.15.

Other advantageous developments of the invention are characterized in the subclaims or are shown in more detail below together with the description of the preferred embodiment of the invention with reference to FIGS. Show it:

1 a plan view of the inflow side of a Strömungsleitgitters;

2 a side sectional view of a half of the Strömungsleitgitters 1 ;

3 a plan view of the inflow side of a Strömungsleitgitters;

4 a plan view of the downstream side of a Strömungsleitgitters;

5 an installation situation of Strömungsleitgitters on a fan in a side view;

6 a characteristic comparison of Strömungsleitgitters invention.

In 1 is a plan view of the inflow side of a Strömungsleitgitters 1 shown. The Strömungsleitgitter 1 is as Vorleitgitter for arrangement at the intake of a fan 50 trained, as exemplified in 5 is shown. An axial center line ML has the Strömungsleitgitter 1 a grid web structure with circumferentially spaced radial webs 2 and radially spaced and coaxially arranged circumferential webs 3 . 4 and a the outer edge final outer ring 5 on. In the central area around the axial center line ML is one through the innermost radial web 3 limited central opening 6 intended.

2 shows a side sectional view of a half of the Strömungsleitgitters 1 out 1 , In the 2 upstream inflow side of the Strömungsleitgitters 1 is flat and flat and extends parallel to its radial plane, with all the elements of the Strömungsleitgitters 1 ie the outer ring 5 , the radial webs 2 and the peripheral webs 3 . 4 ending in a radial plane of the inflow side. The outer ring 5 forms the radial and axial termination, wherein the transition is determined by a predetermined rounding R of R = 10 mm in the embodiment. The radial webs 2 extend on the inflow side over a diameter D ₆ , on the downstream side almost to the outer ring 5 , which is determined in this area by the diameter D ₃ . The peripheral webs 3 . 4 extend in the radial direction on the inflow side over the diameter D ₁ , D ₅ and downstream on the diameter D ₂ , D ₇ . In the axial direction, the circumferential webs extend 3 . 4 from the inflow side in the direction of the outflow side convexly curved in the direction of the center line, wherein the radially inner peripheral ridge 3 a bulge in the direction of the downstream side and the peripheral ridge 4 has a curvature in the direction of the inflow side. The girth bar 3 also extends from the inflow side to the outflow side with respect to the axial center line at an angle of α = 18 ° inclined radially outward. The radially outer circumferential ridge 4 extends from the inflow side to the outflow side with respect to the axial center line at an angle of β = -12 ° inclined radially inward, so that the peripheral webs 3 . 4 in an imaginary extension at a distance L to the inflow side the intersection 7 form. The point of intersection 7 is radially spaced from the axial center line ML and extends circumferentially at the intersection diameter D ₄ . The axial height H _{1 of} the innermost circumferential ridge 3 is smaller than the axial height H _{2 of} the second circumferential ridge 4 , which in turn is less than the total axial height H of Strömungsleitgitters 1 , which in the embodiment shown by the outer ring 5 is determined. The radial webs 2 are formed such that their axial height starting from the innermost peripheral ridge 3 in the direction radially outward to the outer ring 5 increased.

In the in the 1 and 2 shown Strömungsleitgitter 1 For example, the ratio of the maximum outside diameter D ₃ to the axial height H is 12.14. The ratio of the inflow-side central diameter D ₁ to the maximum outer diameter D ₃ is 2.19. The ratio of the intersection diameter D ₄ to the downstream-side outer diameter D ₃ is set to a value of 0.74. The ratio of the intersection diameter D ₄ to the distance L to the inflow side assumes a value of 1.55. The ratio of the axial height H to the distance L to the inflow side is 0.47.

The 3 and 4 each show a plan view of the inflow side and outflow side of the Strömungsleitgitters 1 of the 1 - 2 , The radial webs 2 are each spaced at a circumferential angle δ = 15 °, so that in the illustrated embodiment, 24 radial webs 2 are provided. The through the radial webs 2 and peripheral webs 3 . 4 certain grid meshes each have a diagonal extension, which is set so that the more radially outer grid meshes are both upstream and downstream side greater. For this reason, the ratio L ₁ <L ₂ applies on the inflow side, and the ratio L ₃ <L _{4 on the} outflow side.

In 5 is an installation situation of the Strömungsleitgitters 1 out 1 on a fan 50 shown in a side view. The ventilator 50 includes a motor that has a rotor bell 51 having a diameter D _M. In the axial direction, the rotor bell extends 51 in the central opening 6 the Strömungsleitgitters 1 however, radially a radial distance SPm between the radial outer edge of the rotor bell becomes 51 and the downstream-side center diameter D _{2 of} the central opening (that of the downstream-side diameter of the inner peripheral land 3 corresponds) provided. Its relation to the inflow-side center diameter D ₁ (the inflow-side diameter of the inner peripheral ridge 3 corresponds) is set to a value of 0.13.

6 shows a characteristic comparison, each using a Zuströmbox, the Strömungsleitgitters invention 1 , wherein the characteristics of the Strömungsleitgitters the 1 - 4 with the reference number 200 are provided. In contrast, curves without Strömungsleitgitter by the reference numeral 100 and characteristics with a known from the prior art Strömungsleitgitter by the reference numeral 300 characterized. The positive effect of Strömungsleitgitters invention 1 with regard to a noise reduction in dBA, in particular with delivery figures (Phi) of 0.04-0.1. The total pressure difference is particularly favorable with high delivery numbers.

The invention is not limited in its execution to the above-mentioned preferred embodiments. Rather, a number of variants is conceivable, which makes use of the illustrated solution even with fundamentally different types of use. For example, the number of circumferential lands is not two limited, but any number of additional circumferential webs can be provided.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102014116047 A [0002]
• EP 2778432 A1 [0002]
• DE 1052624 B [0002]

Claims (15)

Strömungsleitgitter formed as Vorleitgitter for placement on a suction of a fan, wherein it has a grid line structure about an axial center line (ML), the circumferentially spaced radial webs ( 2 ) and radially spaced coaxial circumferential ridges (US Pat. 3 . 4 ) and an outer ring ( 5 ), wherein an inflow side of the Strömungsleitgitters ( 1 ) plane and parallel to a radial plane of the Strömungsleitgitters ( 1 ). Strömungsleitgitter according to claim 1, characterized in that it is flat and a ratio D ₃ / H of its maximum outer diameter (D ₃ ) to the axial height (H) is set in a range of 6-25. Strömungsleitgitter according to claim 1 or 2, characterized in that in a central region about its axial center line with a central opening ( 6 ) with an inflow-side central diameter (D ₁ ) is formed, wherein its ratio relative to a maximum outer diameter (D ₃ ) of the Strömungsleitgitters ( 1 ) is set in a range of D ₃ / D ₁ = 1.5-6.0. Strömungsleitgitter according to at least one of the preceding claims, characterized in that viewed in the radial direction of the first coaxial circumferential ridge has an extension from the inflow side to an outflow side, which is inclined relative to the axial center line by an angle (α) radially outward. Strömungsleitgitter according to at least one of the preceding claims, characterized in that seen in the radial direction second coaxial circumferential ridge has an extension from the inflow side to an outflow side, which is inclined relative to the axial center line by an angle (β) radially inward. Strömungsleitgitter according to claims 4 and 5, characterized in that the extensions of the first and second coaxial circumferential webs seen in the radial direction ( 3 . 4 ) in an imaginary extension at a distance (L) from the inflow side an intersection ( 7 ), which determines a relative to the axial center line (ML) radially spaced intersection diameter (D ₄ ). Strömungsleitgitter according to the preceding claim, characterized in that a ratio D ₄ / D _{3 of} the intersection diameter (D ₄ ) against a downstream-side outer diameter (D ₃ ) of the Strömungsleitgitters ( 1 ) is set in a range of 0.01-0.8. Strömungsleitgitter according to one of claims 6 to 7, characterized in that a ratio D ₄ / L of the intersection diameter (D ₄ ) over the distance (L) between the intersection ( 7 ) and the inflow side is set in a range of 0-1.6. Strömungsleitgitter according to at least one of the preceding claims 6 to 8, characterized in that a ratio H / L its axial height (H) of the Strömungsleitgitters ( 1 ) with respect to the distance (L) between the point of intersection ( 7 ) and the inflow side is set in a range of 0.01-0.5. Strömungsleitgitter according to the preceding claim, characterized in that viewed in the radial direction of the first and second coaxial circumferential webs ( 3 . 4 ) each having an axial extent (H ₁ , H ₂ ) parallel to the axial center line (ML) whose ratio relative to the axial height (H) of the Strömungsleitgitters ( 1 ) is set to H ₁ <H ₂ <H. Strömungsleitgitter according to at least one of the preceding claims, characterized in that seen in the radial direction of the first and second coaxial circumferential ridge ( 3 . 4 ) are convex in the direction of the anal midline (ML). Strömungsleitgitter according to at least one of the preceding claims, characterized in that the radial webs ( 2 ) are each spaced at a circumferential angle (δ) of ≤ 20 °. Strömungsleitgitter according to at least one of the preceding claims, characterized in that in an axial plan view of the inflow side between each adjacent radial webs ( 2 ) and between the radially first and second coaxial circumferential webs ( 3 . 4 ) Grid meshes with a first diagonal extension (L ₁ ) and between respectively adjacent radial webs ( 2 ) and between the second coaxial circumferential ridge seen in the radial direction ( 4 ) and the outer ring ( 5 ) are formed in each case grid meshes with a second diagonal extension (L ₂ ), wherein an aspect ratio L ₁ <L _{2 is} fixed. Strömungsleitgitter according to at least one of the preceding claims, characterized in that in an axial plan view of the downstream side between each adjacent radial webs ( 2 ) and between the radially first and second coaxial circumferential webs ( 3 . 4 ) Grid meshes with a first diagonal extension (L ₃ ) and between adjacent radial webs ( 2 ) and between the second coaxial circumferential ridge seen in the radial direction ( 4 ) and the outer ring ( 5 ) each grid mesh with a second Diagonal extent (L ₄ ) are formed, wherein an aspect ratio L ₃ <L _{4 is} fixed. Fan with a drive unit and a Strömungsleitgitter according to any one of the preceding claims, characterized in that the drive unit at least partially in the axial direction in a region of the Strömungsleitgitters ( 1 ) and a ratio of a radial distance (SPm) between a radial outer edge of the drive unit and a downstream-side center diameter (D ₂ ) of the central opening (FIG. 6 ) and the inflow-side center diameter (D ₁ ) is set to a value SPm / D ₁ ≤ 0.15.

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