EP1247988A1 - Blower device, in particular burner blower for heating systems - Google Patents

Abstract

The fan assembly has two single-flow motor-powered individual fans (10,11) installed in a flow guiding casing (12). The outlet openings of the fans open out into or onto the flow guiding casing which has an outlet (23) constructed to blow out the combined airflows from the two individual fans. The drive motor is installed between the individual fans and drives them simultaneously, in the same direction, or in opposite directions. The two fans are installed axially symmetrical or asymmetrical to the drive motor.

Description

The invention relates to a blower arrangement, in particular a burner fan for heating systems, such as from EP 0589300, EP 1022469 or EP 1022470 is known.

With such fans, there is usually a high working pressure aimed at a relatively smaller volume flow.

An object of the present invention is to provide a To create a blower arrangement with which a higher pressure As large a volume flow as possible can be achieved to an even higher To allow flow performance.

According to the invention, this object is achieved by a blower arrangement solved with the features of claim 1.

The idea according to the invention is based on the principle of parallel connection of two single-flow fans to form one double-flow fan. Through the flow guide housing the air flows of the two individual fans can be brought together be, the outlet opening advantageously or a burner tube which may be arranged thereon free can be designed. Another advantage of the flow guide housing consists in that in principle existing single blowers can be used or mounted on it can, for example as a fan according to the above State of the art. Still can with such known individual fans through the arrangement according to the invention an increased pressure can be achieved with a large volume flow. The overall design is relative simple and inexpensive to implement.

By the measures listed in the subclaims advantageous developments and improvements in the claim 1 specified fan arrangement possible.

The drive motor forming the motor drive arrangement is preferably arranged between the individual fans and drives them simultaneously, so that despite two individual fans only a single drive motor is required. You can the two individual fans are mirror-symmetrical or asymmetrical be arranged to the drive motor. The asymmetrical arrangement enables the use of identical single blowers, which leads to a big cost advantage.

The individual fans are expediently used as radial fans trained and parallel to each other on the flow guide housing mounted, the side suction openings preferably point in opposite directions so that the Air sucked in from the two opposite directions can be. This has an advantageous and streamlined effect for the total air intake.

Grab in an advantageous constructive embodiment the discharge-side end areas of the housing of the individual blowers into the flow guide housing and have against each other directed blow-out openings. This can be a relatively simple process constructed flow guide housing can be used. alternative For this purpose, the blow-out openings of the housing of the individual blowers also at inlet openings of flow control chambers open into the flow guide housing, these flow guide chambers discharge openings facing each other in the Have inside the flow guide housing. This alternative enables easier mounting or flange mounting of the Single blower, the flow guide chambers independent of the individual blowers can be optimized. This alternative thus enables the use of existing individual fans essentially without any design changes.

For optimal air routing and merging of the two individual air flows is advantageously between each other directed discharge openings a flow guide wall for the essentially parallel alignment of the Individual air flows arranged.

For further air guidance, the opposing ones open Blow-out openings in one the air flows of the blow-out opening of the flow guide duct supplying the flow guide. In an expedient embodiment, this can also be used as Pressure chamber to be designed to the dynamic pressure of the Convert airflow to static pressure if this is desirable. To the fan assembly for a heating burner To be able to use it is a burner tube formed blow pipe at the blow opening of the flow guide housing arranged, this burner tube in can advantageously be designed freely.

The flow guide housing is preferably essentially cuboid.

Fig. 1

ein erstes Ausführungsbeispiel einer doppelflutigen Gebläseanordnung in der Draufsicht,

Fig. 2

dieselbe Gebläseanordnung in einer stirnseitigen Ansicht,

Fig. 3

dieselbe Gebläseanordnung in einer Seitenansicht,

Fig. 4

das Strömungsleitgehäuse der in den Fig. 1 bis 3 dargestellten Gebläseanordnung bei abgenommenen Einzelgehäusen und

Fig. 5

ein zweites Ausführungsbeispiel einer doppelflutigen Gebläseanordnung mit asymmetrisch angeordneten Einzelgebläsen.

Embodiments of the invention are shown in the drawing and explained in more detail in the following description. Show it:

Fig. 1

a first embodiment of a double-flow fan arrangement in plan view,

Fig. 2

the same fan arrangement in a front view,

Fig. 3

the same fan arrangement in a side view,

Fig. 4

the flow guide housing of the fan arrangement shown in FIGS. 1 to 3 with individual housings removed and

Fig. 5

a second embodiment of a double-flow fan arrangement with asymmetrically arranged individual fans.

1 to 4 as the first embodiment The double-flow fan arrangement shown are two radial fans 10, 11 in parallel next to each other on a cuboid Flow guide housing 12 mounted. The two radial fans 10, 11 are, for example, according to the above State of the art designed as a hybrid blower and closer there described, so here is a detailed individual description can be dispensed with. With these radial fans 10, 11 is one with a circumference Blade 13 provided pot-like impeller 14 rotatable in a housing 15 mounted, starting from a part-circle curved, directly along the blade ring 13 extending circumferential wall area like a screw in the direction of rotation of the impeller 14 radially to an outlet region 16 extended. Between the two housings 15 of the two radial fans 10, 11, a drive motor 17 is arranged, the drives two wheels 14 simultaneously via drive axles 18. The two radial fans 10, 11 are mirror-symmetrical arranged to the drive motor 17 and except for different Drive sides for the impellers 14 are essentially identical built up.

The arranged on a flat side of the flow guide housing 12 Radial fans 10, 11 engage with their outlet areas 16 into the flow guide housing 12. You take action through the rectangular openings 19 shown in FIG. 4 the upper flat side of the flow guide housing 12 therethrough. The two outlet areas 16 of the housing 15 of the radial fan 10, 11, like the other housing areas, corresponding to the length of the drive motor 17 from each other spaced. They have inside the flow guide housing 12 side-facing discharge openings 20, 21. These each open laterally at an in Interior of the flow guide housing 12 arranged flow guide channel 22, in the exemplary embodiment as a pressure chamber is formed with an expanding cross section. At a Blow-out opening 23 of the flow guide channel 22 at the lower one Flat side of the flow guide housing 12 is a burner tube a blowout pipe 24 arranged in a heating burner, for example flanged, welded or screwed on. The flow guide channel 22 could not be as Pressure chamber be formed and directly to the blow-out opening 23rd to lead.

Between the outlet openings 20, 21 of the outlet regions 16 a flow guide wall 25 or 26 is arranged through which the two air flows of the two radial fans 10, 11 um 90 ° redirected and merged. 1 is the flow guide wall 25 in the form of two V-like against each other curved part walls formed while according Fig. 4 in a simpler embodiment, the flow guide wall 26 is designed as a flat burner plate.

In an alternative embodiment, not shown, can the housing 15 of the radial fan 10, 11 also not in that Flow guide housing 12 engage, but flanged to this his. Instead of the flow guide housing 12 engaging outlet areas 16 then occur accordingly similarly shaped flow guide chambers, the corresponding blow openings 20, 21 directed towards each other.

These flow guide chambers can also be used together with the flow guide channel 22 be designed as an integrated chamber.

The second embodiment shown in FIG. 5 in a side view largely corresponds to the first embodiment, so that the same or equivalent components or areas with the same reference numerals and are not described again. On a modified flow guide housing 27 are the two radial fans 10, 11 not mirror-symmetrical to the drive motor arranged in between, but arranged asymmetrically, that is, that Radial fan 10 engages according to the first embodiment through a corresponding opening 19 on the upper flat side of the flow guide housing 27 in this one, while the second Radial blower 11 engages laterally in this, so that a modified opening in the flow guide housing 27 for Inclusion of this radial fan 11 is required, which is essentially over the entire length of the flow guide housing 27 extends. With this configuration, two completely identical radial blowers 10, 11 are used, however a drive motor is required in which the two are drive axes extending in opposite directions must have an opposite direction of rotation. This can achieved for example by a flanged gear become.

The blow-out pipe 24 or the blow-out opening 23 can be variable be arranged on the flow guide housing 12 or 27, for example also instead of the lower flat side of the same on one end, for example on that of the outlet areas 16 distant end face.

Claims (12)

Fan arrangement, in particular burner fan for heating systems, with two single-flow, through a motor drive arrangement (17) driven, on a flow guide housing (12; 27) arranged individual fans (10, 11), the Blow-out openings (20, 21) on or in the flow guide housing (12; 27) open, the one for blowing out the combined Air flows of the two individual fans (10, 11) are formed Blow-out opening (23) is provided. Blower arrangement according to claim 1, characterized in that the drive motor forming the motor drive arrangement (17) is arranged between the individual blowers (10, 11) and drives them simultaneously, in the same direction or in opposite directions. Blower arrangement according to claim 2, characterized in that the two individual blowers (10, 11) are arranged substantially mirror-symmetrically or asymmetrically to the drive motor forming the motor drive arrangement (17). Blower arrangement according to one of the preceding claims, characterized in that the individual blowers (10) are designed as radial blowers and are mounted in parallel next to one another on the flow guide housing (12; 27), the lateral suction openings preferably pointing in opposite directions. Blower arrangement according to one of the preceding claims, characterized in that the outlet-side end regions (16) of the housings (15) of the individual blowers (10, 11) engage in the flow guide housing (12; 27) and have blow-out openings (20, 21) directed towards one another. Blower arrangement according to one of claims 1 to 4, characterized in that the blow-out openings of the housing (15) of the individual blowers (10, 11) open at inlet openings (19) of flow-guiding chambers in the flow-guiding housing (12), these flow-guiding chambers facing each other in the interior of the Have flow guide housing (12). Blower arrangement according to claim 5 or 6, characterized in that a flow guide wall (25, 26) for substantially parallel alignment and mixing of the individual air streams is arranged between the mutually directed blow-out openings (20, 21). Blower arrangement according to one of claims 5 to 7, characterized in that the mutually directed blowout openings (20, 21) open into a flow guide channel (22) supplying the air streams to the blowout opening (23) of the flow guide housing (12; 27). Blower arrangement according to claim 8, characterized in that the flow guide channel (22) is designed as a pressure chamber. Blower arrangement according to one of the preceding claims, characterized in that a blow-out pipe (24), in particular in the form of a burner pipe of a heating burner, is arranged on the blow-out opening (23) of the flow guide housing (12; 27). Blower arrangement according to one of the preceding claims, characterized in that the flow guide housing (12; 27) is essentially cuboid. Blower arrangement according to one of the preceding claims, characterized in that the two individual blowers (10, 11) are essentially identical.

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