EP2196679A2 - Impeller for a radial fan - Google Patents

Abstract

The radial fan impeller (1) has a number of circumferentially distributed blades (2) which on the inlet side (16) over their radial extent to the outlet section (6) are connected to a shroud disc (20) which has a central inlet opening (22) running into the inner inlet section (4) of the impeller. Radially shorter intermediate blades (28) are connected to the shroud disc and installed in regions between adjacent blades and from the outer circumference of the shroud disc extend only over a part of the radial extent of the shroud disc and end at a radial distance from the hub (24).

Description

The present invention relates to a radial impeller, in particular for use in gas blowers with a steep fan characteristic curve.

The EP 0 410 271 B1 describes a radial fan for conveying a gaseous medium in a device with high flow resistance, which is in particular a burner in a gas boiler. Such burners have a relatively high flow resistance, which is of the order of 200 Pascal or more. The medium to be conveyed may be air or a combustible gas-air mixture. The blower or its blower wheel must therefore be designed for a steep pressure-volume flow characteristic. This means that pressure changes should be accompanied by only small changes in the volume flow. The known fan has for this purpose an impeller whose diameter is more than ten times its flow outlet width. This is a closed, both sides capped wheel with a substantially flat and a central hub having lower part (first cover plate), a plurality of backwardly curved, each having the shape of a circular section blades and a circular, flat-plate-shaped lid (second cover plate ) with a central, circular inlet opening.

Also the documents DE 41 41 359 A1 . CH 301 116 and DE 102 04 037 A1 describe in each case similar, also closed impellers, wherein according to the first two documents shortened intermediate blades are provided.

Such closed, double capped radial impellers are relatively difficult and expensive to manufacture.

By the WO 02/45862 A2 Another radial fan is known, but which has an impeller with compared to the diameter of such a large axial length and flow outlet width, that this fan is not or less well suited for the preferred application as a gas burner blower. This known impeller has consistently the same length blades and is formed axially open on the hub side.

The present invention has for its object to provide a Radialgebläserad, which is particularly suitable for a gas burner fan with steep curve in a simple and economical manner to produce.

According to the invention this is achieved in each case by the combination of features of claims 1 and 13. Preferred features are the subject of the dependent claims.

By designing the diameter as at least ten times the flow outlet width of the blades, the desired steep characteristic is achieved. According to the invention, however, the blades have on their side facing away from the cover plate side free edges, which lie in an imaginary plane or any curved surface. By this inventively open on this page training of the impeller this can be made very quickly and economically as a one-piece molded part by spraying plastic, by a relatively simple injection mold can be used without or with only a few sliders, because by the structure of the wheel undercuts in Entformrichtung can be avoided, so that a simple axial demolding of the molding is possible.

The radial impeller according to the invention is intended for use in a blower housing which has a wall adapted to the free blade side edges or to the imaginary surface shape defined by these, such that only a narrow axial gap is formed between this wall and the impeller blades is.

The invention provided in each case between two blades shortened intermediate blades have the advantage that on the one hand a relatively large number of blades or vanes can be provided, which is advantageous in terms of flow guidance in the flow channels formed between the blades with regard to air flow, flow separation and vortex formation. On the other hand, however, the problem is avoided that with a correspondingly large number of long blades passing through to the inlet region, the intake or inflow region would be partially blocked, which would have a negative effect on the delivery volume. In contrast, according to the invention, the radially inner inflow region is kept open in the region of the shorter intermediate vanes.

In an independently protectable alternative embodiment, an annular cover plate is provided which has a width R _D , which is measured from the edge of the suction port is smaller than the distance Rand- suction to discharge opening - peripheral edge.

It is advantageous with the width to be such that it is measured from the intake substantially half a blade length. This particular embodiment also allows a production of the impeller as a one-piece molded part, being considered as particularly favorable an embodiment in which the support disc is annular and has a ring width, which is substantially the dimension outer edge cover plate to exit opening-Umfangsrand (2-3 '. ) is.

If this ring width is substantially half a blade length, guidance may still be given to the airflow in the exit region, so that the shear friction between the rearward housing wall and the flow is restricted to a reduced range.

It may be favorable that the two disc rings, namely that of the cover disc and that of the support disc, either overlap in the projection in the direction of the axis of rotation as required, form a gap between them or themselves then add each other to a circular area. An advantageous flow course can be achieved in that the hub body has a height that corresponds to measured from the plane of the rear support plate substantially half the wheel depth. Conveniently, a cone is formed on the hub body to the flow side, wherein the cover plate (2-9) and the cone of the hub in cross section AA have substantially a parallel course. As a result, a favorable flow profile is achieved in the input region of the wheel.

In an advantageous embodiment it can be provided that on the outer circumference of the cone, a region is formed, the flow surface is substantially parallel to the plane of rotation. By virtue of this design, the flow still receives a change in the directional gradient before leaving the cone region, which reduces a steep impingement of the flow in the open region of the wheel.

This effect can be advantageously further increased by the fact that the flow surface of the outer peripheral portion is arranged in a plane which is located with respect to the flow channel inwardly than the surface of the outer support disc bounding the flow channel, d. That is, the support disk can be made thinner than the thickness of the outer peripheral portion of the cone.

An advantageous embodiment can be designed so that the blades are axially wider in the intake area than in the outflow area.

It may also be favorable that in each case at least one intermediate blade is arranged between the blades substantially in the region of the width of the carrier disk.

It is particularly favorable that in each case two intermediate blades are arranged in pairs. It is particularly advantageous if the intermediate blades have a radial extent which corresponds substantially to the distance between the outer periphery of the cover plate and the outer periphery of the rear support plate.

It is particularly advantageous that the intermediate blades are held exclusively on the rear support plate. This embodiment particularly facilitates the formation of the radial impeller as a one-piece cast part.

• insbesondere im Zusammenwirken mit einem geeignet angepassten Gebläsegehäuse geeignet für die Erzeugung eines hohen Drucks sowie zur Erzeugung einer steilen Kennlinie, bei der eine Änderung des Gegendrucks in der Anlage keine bzw. nur eine geringfügige Änderung des Volumenstromes bewirkt.
• kurze axiale Baulänge
• einteilige Fertigung im Kunststoff-Spritzverfahren mit einfacher Entformbarkeit und in einem einfachen und wirtschaftlichen Formwerkzeug
• dadurch preisgünstig herstellbar.

In summary, the combination of features of claims 1 and 12 according to the invention leads to the following essential advantages of the radial impeller:

• in particular in cooperation with a suitably adapted blower housing suitable for generating a high pressure and for generating a steep curve, in which a change in the backpressure in the system causes no or only a slight change in the flow rate.
• short axial length
• one-piece production in the plastic injection molding process with simple demolding and in a simple and economical mold
• thereby inexpensive to produce.

Fig. 1

eine Perspektivansicht einer ersten Ausführungsform eines erfindungsgemäßen Radialgebläses auf die Seite der Deckscheibe,

Fig. 2

eine Perspektivansicht des Gebläserads gemäß Fig. 1 auf die andere, offene Seite der Schaufeln,

Fig. 3

eine Draufsicht auf die Seite der Deckscheibe,

Fig. 4

einen Querschnitt in der Ebene A-A gemäß Fig. 3,

Fig. 5

eine zweite Ausführungsform des erfindungsgemäßen Radialgebläserads im Axialschnitt ähnlich Fig. 4,

Fig. 6

eine Darstellung analog zu Fig. 5 in einer vorteilhaften Weiterbildung,

Fig. 7

eine Draufsicht auf eine weitere Ausführungsform mit verkleinerter Deck-und Trägerscheibe und

Fig. 8

eine Ansicht eines Schnitts entlang der Linie A_A in Fig. 7

With reference to preferred embodiments illustrated in the drawings, the invention will be explained in more detail. Showing:

Fig. 1

a perspective view of a first embodiment of a radial fan according to the invention on the side of the cover plate,

Fig. 2

a perspective view of the impeller according to Fig. 1 on the other, open side of the blades,

Fig. 3

a plan view of the side of the cover plate,

Fig. 4

a cross section in the plane AA according to Fig. 3 .

Fig. 5

a second embodiment of the radial impeller according to the invention in axial section similar Fig. 4 .

Fig. 6

a representation analogous to Fig. 5 in an advantageous development,

Fig. 7

a plan view of another embodiment with reduced deck and carrier disk and

Fig. 8

a view of a section along the line A_A in Fig. 7

In the various figures of the drawing, like parts are always provided with the same reference numerals.

An inventive radial impeller 1 consists of a plurality of distributed over the circumference arranged radial blades 2, seen in the radial direction extend from an inner inlet region 4 to an outer exit region 6. According to Fig. 1 and 3 The blades 2 have radially inner end edges 8, which are located on an imaginary, approximately cylindrical, but especially conical surrounding the inlet region 4 and in the axial inflow direction (see the arrow E in FIG Fig. 1 and 4 to 6 ) seen in the inlet region 4 in the tapered surface lie. The blades 2 also have outer end edges 10. In each case between the blades 2 radial flow channels 12 are formed with a substantially radial outflow direction A.

Furthermore, the blades 2 extend axially, ie viewed in the direction of a rotation axis 14, between an inlet side 16 and an axially opposite hub side 18 (see the sectional views in FIG 4 to 6 ).

The blades 2 are furthermore connected according to the invention only on their inlet side 16 over their radial extent to the outlet region 6 with a cover plate 20 which has a central inlet opening 22 opening into the inlet region 4. On the opposite hub side 18, however, the blades are connected only with their radially inner end regions with a central hub 24, so that the flow channels 12 are formed open on this side in the axial direction. The blades 2 thus have free side edges 26 on this side.

How to continue 4 to 6 results, define the blades 2 and the cover plate 20 has an outer impeller diameter D, which is at least ten times an existing in the exit region 6, axially measured flow outlet width B of the blades. In this case, the axially measured inner flow inlet width C of the blades 2 in the inlet region 4 is preferably greater than the outer flow outlet width in the outlet region 6 (cf., for example, FIG Fig. 4 ).

In a further embodiment according to the invention, radially shorter intermediate blades 28 are connected to the cover disk 20 in regions respectively arranged between adjacent blades 2 (see in particular FIG Fig. 1 and 2 ). These intermediate blades 28 extend from the outer circumference of the cover plate 20 only over part of the radial extent of the cover plate 20 and terminate at a radial distance from the hub 24. This can best be seen in Fig. 2 detect. In the illustrated embodiment, only one intermediate blade 28 is provided between each two adjacent blades 2, but it can also each two or more intermediate blades Be provided 28, which can then be designed with the same or different radial length.

Due to the described embodiment of the invention, the radial impeller 1 can be advantageously prepared as a one-piece molded plastic, preferably of a plastic with such antistatic properties that during operation static charges avoided or derived via a not shown housing. This contributes to a high degree of application safety, especially with regard to the preferred application for conveying combustible gas-air mixtures, by avoiding ignition by sparking.

As it turned out Fig. 2 results, it is provided in this embodiment that the blades 2 and the intermediate blades 28 are formed in the radial direction with respect to the direction of rotation 30 is curved backward. In this case, the blades are arranged such that their entry angle is approximately between 30 ° and 45 ° and their exit angle is approximately between 45 ° and 90 °. To explain this angle is on the EP 0 410 271 Referenced. Alternatively, however, an embodiment with forward curved or at the exit region 6 radially ending blades 2 and intermediate blades 28 is possible.

The hub 24 consists of an outer disk portion 32 and a central, to be connected to a shaft not shown bearing portion 34, in particular in the form of a short pipe socket. In this case, the disc portion 32 is connected at its radially outer periphery with the inner, the inlet portion 4 facing end portions of the blades. In the first embodiment according to Fig. 1 to 4 is advantageously provided that the disc portion 32 of the hub 24 is projecting from its outer peripheral region connected to the blades 2 such in the inlet region 4 and in the direction of the inflow opening 22 of the cover plate 20 projecting convexly or cup-shaped, for example, that the hub 24 -. see in particular Fig. 4 - Forming on their side facing away from the inflow opening 22 a receiving space 36 for certain (not shown) blower-functional elements such as bearing elements, motor or rotor parts and / or the like. This advantageous embodiment leads to a short axial length of the entire fan.

How to get out Fig. 2 gives, are (at least) the intermediate blades 28 with the cover plate 20 via each formed in the blade root area transition gain 38 connected. This ensures, despite the connection-free, spaced from the hub 24 embodiment, a sufficient stability of the intermediate blades 28th

In another, in Fig. 6 illustrated embodiment of the invention, the blades 2 and the intermediate blades 28 are connected in their radially outer and the cover plate 20 axially opposite region for mechanical reinforcement via a circumferential, integrally molded ring member 40.

Finally, it should be mentioned that the cover disk 20 in the region of the inflow opening 22 has a nozzle-like edge 42 in the flow direction.

In the Fig. 7 and 8th is shown a further embodiment for solving the problem of the invention. In contrast to the reference numerals of the preceding embodiments, the reference numerals are provided with a number 2 and hyphen in the embodiment described now.

This in Fig. 7 shown radial impeller 2-1 has an annular cover plate 2-9, which surrounds the suction 2-7 annular. Usually, a circular suction opening 2-10 is formed on the cover plate 2-9, which is surrounded by a circumferential opening lip 2-10 '. The radial impeller 2-1 further includes a hub body 2-2 and a peripheral edge 2-3. The hub body 2-2 has on its side facing the suction opening 2-10 a cone 2-2 'on. The impeller 2-1 is equipped with the hub body 2-2 to the peripheral edge 2-3 substantially radially extending blades 2-6. The vanes define an intake region 2-7 and an outflow region 2-8.

The annular cover plate 2-9 has a width R _D , which measured from the edge of the suction port (2-10) is half the distance edge-outlet opening circumference 2-3.
The width R _D thus corresponds to substantially half of the blade length measured along the upper peripheral edge of the blade 2-6.

The foot of such a blade is integrally connected at its radially inner tip with the hub body. The support disk 2-11 extending on the rear side 2-5 is ring-shaped and has a width R _T on its ring, which measured from the edge of the suction port 2-10, substantially half of the design edge outlet opening 2-10- peripheral edge is 2-3. This corresponds essentially to half the length of the blade, measured along the back edge of the blade jet between the peripheral edge 2-3 and the base of the blade 2-6 on the cone 2-2 'of the hub 2-2.

In such a design, as in Fig. 7 to recognize, in the projection of the impeller on the plane of the support disk in the direction of the axis of rotation of the outer periphery of the cover plate 2-9 and the inner circumference of the support plate 2-11 congruent. However, alternative embodiments may provide that both disc rings 2-9; Depending on the requirements in the projection, overlap 2-11 in the direction of the axis of rotation 2-12 or form a gap between them.

The hub body 2-2 has a height which, measured from the plane of the rear support plate 2-11 substantially equal to half the wheel height. In the illustrated embodiment, the height of the hub corresponds to half the height of the projecting into the suction port 2-10 blades.

The surface F _{K of} the cone 2-2 'of the hub 2-2 extends substantially parallel to the inner surface F _D cover plate 2-9. In the area of the foot 2-14 of the cone, ie on its outer circumference, a region 2-21 is formed, the surface of which runs essentially parallel to the plane of rotation of the impeller. The flow-facing surface of the cone and the rotation-parallel region are rounded. Between the blades 2-6 extending from the edge of the suction opening 2-10 to the peripheral edge 2-3 of the fan wheel 2-1, intermediate blades 2-16 are arranged substantially in the region of the width of the rear support disk 2-11. The number of blades 2-16 may vary depending on the application. Preferably, in the illustrated embodiment, two intermediate blades 2-16 are arranged in pairs between two blades 2-6. The radial extent of the intermediate blades 2-16 is dimensioned so that it substantially corresponds to the distance 2-17 between the outer periphery 2-18 of the cover plate 2-9 and the outer periphery 2-19 of the rear support plate 2-11. In the illustrated embodiment, the intermediate blades 2-16 are held exclusively on the rear support plate 2-11, that is, the front edge of the intermediate blades are free in this embodiment. Depending on the above-described arrangement of the cover and the support disk but the intermediate blades can also be formed on the cover plate. The Shape of the intermediate blades corresponds in its course substantially the corresponding design of the portion of the blades 2-6 at the appropriate location.

As was the case with the first exemplary embodiment, the preceding embodiment can also advantageously be produced as a one-piece molded part made of plastic

The invention is not limited to the illustrated and described embodiments, but also includes all the same in the context of the invention embodiments.

Claims (13)

Radial fan wheel (2-1), with
a hub body (2-2) and a peripheral edge (2-3),
a front (2-4) and a back (2-5),
extending from the hub body (2-2) to the peripheral edge (2-3) in substantially radially extending blades (2-6),
an intake area (2-7) and a discharge area (2-8),
with an annular cover disk (2-9) on the front side, in which a suction opening (2-10) is formed and with a rear support disk (2-11),
characterized in that
the annular cover disc (2-9) has a width R _D measured from the edge of the suction port (2-10) smaller than the distance between the edge suction port (2-10) and the exit port peripheral edge (2-3 '). Radial fan wheel according to claim 1, characterized in that the width R _D is substantially half a blade length. Radial fan wheel according to claim 1, characterized in that the support disc (2-11) is annular and has a ring width RT, which is substantially the measure outer edge of the cover disc to outlet opening-Umfangsrand (2-3 '). Radial fan wheel according to claim 1, characterized in that overlap the two disc rings (2-9, 2-11) depending on the requirements in the projection in the direction of rotation axis (2-12), form a gap between them or adjacent to each other complement a circular area. Radial fan wheel according to one of the preceding claims 1 to 4, characterized in that the hub body (2-2) having a height measured from the plane of the rear support disc corresponds essentially to half the wheel height. Radial fan wheel according to one of the preceding claims 1 to 5, characterized in that the hub body (2-2) to the flow side of a cone (2-2 ') and the cover plate (2-9) and the cone of the hub in cross-section AA have substantially a parallel course. Radial fan wheel according to claim 6, characterized in that on the outer circumference of the cone (2-2 '), a region (2-21) is formed, whose surface is substantially parallel to the plane of rotation. Radial fan wheel according to one of the preceding claims 1 to 7, characterized in that between the vanes (6) are each at least one intermediate blade (16) is arranged substantially in the region of the width of the rear-side support plate (11). Radial fan wheel according to claim 8, characterized in that in each case two intermediate blades (16) are arranged in pairs. Radial fan wheel according to claim 8 or 9, characterized in that the intermediate blades (16) have a radial extent which is substantially the distance (17) between the outer periphery (18) of the cover disc (9) and the outer periphery (19) of the rear support disc ( 11). Radial fan wheel according to one of the preceding claims 8 to 10, characterized in that the intermediate blades (2-16) are exclusively held at the rear-side support plate (2-11). Radial fan wheel according to claim 1 and following, characterized by an embodiment as a one-piece molded part made of plastic. Radial fan wheel according to claim 12, characterized in that molded part consists of a plastic having such antistatic properties that static charges are avoided or derived during operation.

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