EP1703139A1 - Centrifugal ventilator - Google Patents

Abstract

The casing (4) has a side portion (2), pot-shaped casing portion (3) to form a casing scroll and a pressure chamber. The chamber has an impeller wheel (5) with radially extending blades. The ratio of the greatest blade height (H) to the greatest diameter (D) of the scroll is between 0.08-0.3.

Description

The invention relates to a radial fan with a side part and a pot-like housing part having housing and a fan arranged in the housing, with radially extending blades.

Such devices for conveying gaseous media are generally used in devices which have a large flow resistance. These can be ceramic surface burners, which are used in the latest development in gas boilers. Such gas boilers have a flow resistance of the order of 200 pascals and more. To overcome the large flow resistance, efforts are being made to produce the steepest possible pressure volume flow characteristics in a radial fan.

Radial blower of the type mentioned are known in the art. So is in the EP 0 410 271 A2 a device for conveying a gaseous medium known in which the housing part has a holder for the electric motor and the side part is provided with an inlet opening for the influx of the blower air.

The invention has for its object to provide a radial fan, which is particularly space-saving, inexpensive and easy to manufacture with the same performance.

The object is achieved in a fan of the type mentioned by the features specified in claim 1.

The solution according to the invention therefore provides for providing a radial fan with a housing having a side part and a cup-shaped housing part, with a fan wheel arranged therein, an electric motor arranged on the side part and with a pressure chamber formed by the housing part and side part which is connected to the fan wheel space between the blade forms in cross-section a nozzle in the manner of a Venturi nozzle, wherein the ratio of the largest blade height (H) / largest diameter (D) of the spiral is substantially between H / D = 0.08 and H / D = 0.3. Due to the special design of the pressure chamber geometry and the design of the blades of the fan in relation to the diameter of the spiral of the pressure chamber, the desired performance can be achieved in an excellent manner. Preferably, the ratio H / D = 0.1, more preferably, however, the ratio H / D = 0.12. This corresponds to a design of a largest diameter of about 145.3 mm with a blade height of 18 mm.

It is particularly advantageous if formations are formed in the housing part and / or in the side part through which the spiral-shaped pressure chamber widens continuously in three dimensions.

Preferably, the shape in the housing part is greater than in the side part. By choosing the housing shape and the arrangement of the larger shape in the housing part, there is the possibility to attach on the side facing away from the engine of the blower housing in the desired manner, without a spatial restriction would be given.

Conveniently, the ratio height / diameter of the housing between 1: 7 and 1: 9 is selected. It is particularly advantageous if the ratio height / diameter of the housing is 1: 8.

It is particularly advantageous if, at a speed of n = 5250, an air volume flow of 11 L / s is supplied. This results in an air flow rate of pa = 1050 (pressure), which requires a shaft power of about 21 W at a speed of 5250 and the said air volume flow of 11 L / s. This is a very low value compared to the prior art.

A further advantageous embodiment can be seen in the fact that the plane of the connection at the outlet channel of the housing is at an angle α≤90 ° to the discharge direction (arrow A). It is particularly advantageous if the angle lies between 90 ° and 83 °, with α = 86.4 ° being particularly preferred.

A favorable embodiment can provide that the blow-out channel is formed on the housing part.

It is particularly advantageous that the housing has a protruding into the pressure chamber in tongue. It is favorable that the tongue is formed on the housing part in the form of a ramp which rises on the side wall of the housing part in the flow direction. By attaching a tongue, the pressure chamber is shielded in the blower against the fan, so that pressure losses can be reduced.

In another embodiment, it may be advantageous for the tongue to be formed on the side part in the form of a ramp and to rise in the direction of flow toward the housing part. By forming the tongue as a ramp, the gap between fan and side wall of the housing part can be reduced, without causing an increase in the noise level.

In a further embodiment of the blower can be provided to use a fan with a hub and a front cover plate, in which case the blades of the fan are held only on the hub and the cover plate. A rear carrier disc can be omitted. This results in a cost-effective production of the fan and thus the radial fan as a whole.

Fig. 1

eine Seitenansicht eines Radialgebläses,

Fig. 2

eine Forderansicht auf das Radialgebläse mit Motor und Anschlussflansch,

Fig. 3

eine schematische Darstellung mit Druckraum, und

Fig. 4

eine schematische Darstellung der Zuordung Lüfterrad-Raum - Druckraum im Schnitt.

In the following the invention will be explained in more detail with reference to embodiments shown in the drawing. Show it:

Fig. 1

a side view of a radial fan,

Fig. 2

a Forderansicht on the radial fan with motor and flange,

Fig. 3

a schematic representation with pressure chamber, and

Fig. 4

a schematic representation of the assignment fan wheel space - pressure chamber in section.

In Fig. 1, a radial fan is shown in side view, which has a housing 4 in which a fan 5 is received. The housing 4 consists of a side part 2 and a pot-like housing part 3. On the side part 2, an electric motor 7 is vibration-damped, which drives the fan 5 via its motor shaft. The housing has a, in connection with FIG. 3 described in detail pressure chamber 8. The fan 5 forms together with the pressure chamber 8, as also explained in more detail in Fig. 3, an idealized Venturi nozzle, wherein the narrowest cross-section of this Venturi nozzle is located in the transition between the fan and the housing.

In the housing part 3 and / or in the side part 2 formations 19 are formed through which the spiral-shaped pressure chamber 8 extends continuously in three dimensions.

The formation 19 is larger in the illustrated embodiment in the housing part 3 as in the side part. 2

In Fig. 2 is a Forderansicht the radial fan is shown. The blower on a blow-out 13 and a suction port 20. As can be seen in the intake, it is in the illustrated embodiment is a fan with backward curved blades. At the free end of the Ausblaskänals 13 a connection 12 in the form of a flange 12 is provided. The plane 11 of the terminal 12 forms in the illustrated embodiment with the theoretical blow-out direction - arrow A - an angle α ≤ 90 °. In a particularly preferred embodiment, the angle α = 86.4 °. By this arrangement, the exiting air flow is performed even further pressure reducing, since the spiral contour of the fan is continued by the angular arrangement between the channel continuation and blow-out. This is accompanied by an increase in pressure at the same time. In the diagram, the theoretical discharge direction - arrow A - and the side wall 16 of the channel - indicated by two parallel lines - run parallel to one another. As well - the vertical center axis of the fan and the plane 11 are parallel to each other.

In Fig. 3, the blower housing 4 is shown schematically, in which the fan 5 is used. The spiral pressure chamber is shielded in the region of the blow-out channel 13 by the tongue 14 against the fan 5. In this illustration, with β = 3.6 °, the complementary angle to the angle α is drawn.

According to the invention, the ratio H (largest blade height) to D (diameter of the spiral) in the illustrated embodiment is 0.12. It has been found during test series that deviations from this ratio still provide useful results, however, the value of 0.12 for a spiral diameter of 145.3 mm and a required volumetric flow rate of 11 I / s is the optimum measure. This power is achieved at a speed of 5250 rpm and a shaft power of 21 W.

In Fig. 4, the Venturi nozzle principle is shown schematically, the area 9 as a fan wheel space in addition to the speed of the fan through the structural design, further accelerating the air flow causes, whereas the pressure chamber 8 causes the pressure increase and calm the air flow ,

In the embodiment shown in the figures, as schematically shown in Fig. 4, the fan 5 is provided with a hub 17, wherein the blades 6 are held on the hub 17 and on a cover plate 18. It is understood that according to desired performance requirements, other fan wheels can be used.

LIST OF REFERENCE NUMBERS

1

centrifugal blower

2

side panel

3

cup-shaped housing part

4

casing

5

fan

6

shovel

7

electric motor

8th

pressure chamber

9

Fan room

10

jet

11

Level of connection 12

12

connection

13

blow-out

Arrow A.

Discharge

14

tongue

15

ramp

16

Side wall of the housing part 3

17

hub

18

cover disc

Claims (16)

Radial fan (1) comprising a housing (4) having a side part (2) and a cup-shaped housing part, a fan wheel (5) arranged therein with radially extending blades (6), an electric motor (7) arranged on the side part and a pressure chamber (8) formed by housing part and side part, which forms with the fan space between the blades (6) in cross-section a nozzle (8 ') in the manner of a Venturi nozzle, and the ratio of largest blade height (H) / largest diameter (D) the spiral is substantially between H / D = 0.08 and H / D = 0.3. Radial fan according to claim 1, characterized in that the ratio of the largest blade height (H) / largest diameter (D) of the spiral is preferably substantially H / D = 0.1, more preferably H / D = 0.12. Radial fan according to claim 1 or 2, characterized in that in the housing part (3) and / or in the side part (2) formations (19) are formed through which the spiral-shaped pressure chamber (8) extends continuously in three dimensions. Radial fan according to claim 3, characterized in that the formation (19) in the housing part (3) is greater than in the side part (2). Radial fan according to one of the preceding claims, characterized in that the ratio height / diameter of the housing (4) is between 1: 7 and 1: 9 Radial fan according to claim 5, characterized in that the ratio height / diameter of the housing (4) is substantially 1: 8. Radial fan according to one of the preceding claims, characterized in that at a speed of about n = 5250 an air flow of about 11 l / s is delivered. Radial fan according to one of the preceding claims, characterized in that the air performance characteristics l / s = 11 (volume flow) and Pa = 1050 (pressure) are achieved at a speed n = 5250 and a shaft power of about 21 W. Radial fan according to one of the preceding claims, characterized in that the plane (11) of the connection (12) on the exhaust duct (13) of the housing (4) at an angle α ≤ 90 ° to the discharge direction (arrow A). Radial fan according to claim 9, characterized in that the plane of the connection (12) at the outlet channel (13) of the housing (4) at an angle 90 °> α ≥ 83 °, preferably α = 86.4 ° to the discharge direction (arrow A) stands. Radial fan according to one of the preceding claims, characterized in that the blow-out channel (13) on the housing part (3) is formed. Radial fan according to one of the preceding claims, characterized in that the housing (4) has a in the pressure chamber (8) projecting into tongue (14). Radial fan according to claim 12, characterized in that the tongue (14) on the housing part (3) in the form of a ramp (15) is formed, which rises on the side wall (16) of the housing part (3) in the flow direction. Radial fan according to claim 12, characterized in that the tongue (14) on the side part (2) in the form of a ramp (15) is formed and in the flow direction to the housing part (3) increases towards. Radial fan according to at least one of the preceding claims, characterized in that the fan wheel (5) has a hub (17) and at least one cover plate (18). Radial fan according to claim 15, characterized in that only one cover disc (18) on the fan wheel (5) is present, and the blades (8) are held only on the hub (17) and on the single cover disc (8).

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