EP4298384A1 - Fan housing for an extractor device, fan for extractor device, and extractor device - Google Patents

Abstract

The present invention relates to a fan housing (1) for an extractor device, comprising a housing body (10) and an outlet element (11), wherein the housing body (10) is used to accommodate a fan wheel, the outlet element (11) extends outwards beyond the outer periphery of the housing body (10), and the air outlet opening (110) of the fan housing (1) is provided at the end of the outlet element (11) which faces away from the housing body (10), characterised in that the fan housing (1) consists of a first housing part (13) and a second housing part (14), wherein the separating plane (T) between the two housing parts (13, 14) is parallel to a plane in which the central axis (A) of the housing body (10) is located, and the separating plane (T) is positioned between the central axis (A) and the air outlet opening (110) of the fan housing, and the second housing part (14) forms at least part of the outlet element (11). The invention also relates to a fan and to an extractor device.

Description

Blower housing for a fume extraction device, fan for fume extraction device and fume extraction device

The present invention relates to a fan housing for an extractor device, a fan for an extractor device and an extractor device with such a fan.

In the case of extractor devices, in particular extractor devices that are used in the kitchen in order to extract vapors and fumes from a hob and to clean them, blowers are used, through which the vapors and vapors are sucked into the extractor device. The blower can also be referred to as a fan. In this case, radial fans, which can also be referred to as radial fans, are preferably used as fans. Radial blowers/fans with forward-curved blades of the fan wheel are particularly preferred.

This type of radial blower/radial fan is particularly preferred because of its good acoustic properties and the very compact design.

Centrifugal blowers/fans consist of a spiral housing in which the fan wheel is accommodated. The volute casing has an outlet, on which a flange is usually provided for attachment to a piping downstream of the blower/fan in the direction of flow. The necessary flange takes up space here.

In addition, in some cases it is necessary to change the cross-section of the outlet in the direction of flow after the blower/fan in order to adapt it to the structural conditions in the vapor extraction device. This usually requires the use of an adapter that is attached to the outlet of the blower. This change in cross section therefore costs additional space in the area of the piping of the vapor extraction device.

It is therefore the object of the present invention to provide a solution by means of which a blower can be provided flexibly in a fume extraction device while requiring as little installation space as possible. The invention is based on the finding that this object can be achieved in that the housing of the fan is constructed in two parts and one housing part comprises at least part of the outlet of the fan.

According to a first aspect, the invention therefore relates to a fan housing for a vapor extraction device, which has a housing body and an outlet element, the housing body serving to accommodate a fan wheel, the outlet element extending outwards over the outer circumference of the housing body and at the end of the outlet element, which faces away from the housing body, the air outlet opening of the fan housing is provided. The fan housing is characterized in that the fan housing consists of a first housing part and a second housing part, the parting plane between the two housing parts being parallel to a plane in which the central axis of the housing body lies, and the parting plane between the central axis and the air outlet opening of the Blower housing is located and the second housing part forms at least part of the outlet element.

The fan can also be referred to as a fan and the centrifugal fan can be referred to as a centrifugal fan. Likewise, the fan housing can also be referred to as a fan housing. In the following, however, the terms fan, fan housing and centrifugal fan are used.

The extractor device in which the fan housing can be used can represent, for example, an extractor hood or a table fan. According to the invention, the fan housing is the housing in which the fan wheel of the fan is accommodated and through which the air sucked in by the fan wheel is guided. The fan is preferably a radial fan and the fan housing is also referred to as a volute housing. The fan housing has a housing body and an outlet member. The housing body can also be referred to as a housing body area or spiral, and the outlet element as an outlet nozzle or outlet nozzle area. The housing body serves to accommodate the fan wheel of the blower. In particular, an accommodating space with a round or spiral cross section is formed in the housing body. The central axis of Housing body is the axis in which the axis of the fan wheel is in the assembled state of the fan and is preferably stored there. In the case body, at least one air intake port is preferably provided in a surface perpendicular to the central axis of the case body. An air inlet opening is particularly preferably provided on the opposite surfaces of the housing body which are perpendicular to the central axis.

The outlet member is a duct member that extends between the case body and the air outlet port of the fan case. In particular, the outlet element extends outwards over the outer circumference of the housing body. In particular, the outlet element extends beyond the outer circumference in a direction that deviates from the radial direction. The outlet element is preferably inclined to the radial direction of the housing body in such a way that the angle between the radial direction and the extent of the outlet element is greater than zero and less than or equal to 90°. The outlet element preferably extends in the tangential direction of the housing body.

The air outlet opening of the fan housing is provided at the end of the outlet element that faces away from the housing body. The air outlet opening is the opening through which air leaves the blower housing. Further piping of the extractor device can be connected to the air outlet opening, via which the air is routed before it leaves the extractor device.

According to the invention, the fan housing consists of a first and a second housing part. The two housing parts are separated from each other by a parting line. The dividing line between the two housing parts is parallel to a plane in which the central axis of the housing body lies. The parting line is between the central axis of the housing body and the air outlet opening of the fan housing. In addition, the second housing part forms at least part of the outlet element. The first housing part forms at least part of the housing body of the fan housing.

Because the fan housing consists of two housing parts, one of which—the second—forms at least part of the outlet element, the fan housing a modular structure. This structure facilitates the integration of the blower into different fume extraction devices. In particular, the second housing part, which comprises at least part of the outlet connection piece, can have the geometry of the outlet connection piece required for the special vapor extraction device. For example, the cross section of the air outlet opening and/or the alignment of the outlet element can be adapted to the geometry of the extractor hood and the second housing part can be selected accordingly.

According to one embodiment, the transition between the housing body and the outlet element forms a nose at one end in the circumferential direction, and the parting plane between the two housing parts lies between the nose and the air outlet opening. The nose can also be called the tongue. At the transition between the housing body and the outlet element there is an opening through which air can pass from the housing body into the outlet element. A nose is formed at one end of the transition and particularly the circumferential opening due to the orientation of the outlet member. The nose lies at the end of the opening where the angle between the tangent of the circumference of the housing body and the extension of the outlet member is an acute angle. In the embodiment in which the parting plane lies between the nose and the air outlet opening, the second housing part comprises only part of the outlet element. The further part of the outlet element is formed on the first housing part. In this embodiment, only the area of the outlet element on which the air outlet opening is provided can be specifically selected according to the geometries of the vapor extraction device, while the first housing part can remain unchanged for different vapor extraction devices. The number of different housing parts that have to be provided for different fume extraction devices is therefore small and storage is therefore simplified.

According to a further embodiment, the transition between the housing body and the outlet element forms a nose at one end in the circumferential direction and the parting plane lies between the nose and the central axis of the fan housing. In this embodiment the entire outlet element is contained in the second housing part. This embodiment further increases the possible variations of the fan housing with a simple structure. According to a further embodiment, the outlet element forms the second housing part. In this case, the housing part can be attached to the transition between the housing body and the outlet element.

The housing parts are preferably detachably connected to one another. The detachable connection can be formed, for example, by a plug-in connection, snap-in connection or clip connection. The fact that the housing parts can be detached from one another further simplifies flexibility.

The connection of the housing parts can optionally be designed in such a way that the fan can be suspended from the outlet element. In another type of suspension of the blower, this can be fixed, for example, to the first housing part on the extractor device and the connection between the first and the second housing part only has to absorb the operating loads.

The cross section of the air outlet opening can be round or square. The shape of the passage opening, which lies between the first and the second housing part, is independent of the shape of the air outlet opening. For example, in the case of a rectangular passage opening, a round air outlet opening can be provided on the second housing part and this can thus be adapted to the geometry of the vapor extraction device in which the housing housing is to be used, without making an adapter necessary.

According to one embodiment, the second housing part, in which the air outlet opening is provided, consists at least partially of an acoustically damping material. As a result, noise propagation can be prevented by the fan housing. Since the housing part consists of acoustically damping material, no further noise-damping part is necessary for this purpose and the structure of the fan housing can be further simplified as a result. In addition, the second housing part can assume the function of a muffler directly at the source of the noise, namely the fan. According to an alternative embodiment, the second housing part, in which the air outlet opening is provided, consists at least partially of an acoustically permeable material. This embodiment is particularly advantageous when the fan is installed in an environment where a separate acoustic enclosure is provided. This is because the sound emission can be minimized in this case, since the sound is no longer reflected along the walls of the housing part and is thus transported out of the blower via the air outlet opening.

According to one embodiment, the outlet element has a fold. A chamfer is a geometry in which at least one wall of the outlet element extends at least in regions in a direction that is inclined to the longitudinal extension of the outlet element. The fold can create a transition between the geometry of the passage opening and the geometry of the air outlet opening. In addition, the fold can also create a difference between the alignment of the passage opening and the alignment of the air outlet opening. For example, the air outlet opening can be offset by 90° relative to the passage opening.

According to one embodiment, an electronics housing, which can also be referred to as an electronics box or E-box, is provided on the second housing part on which the air outlet opening is provided. This creates an extremely compact unit of fan and electronics housing. This reduces the number of connecting elements compared to a separate electronics box. The second housing part, including the electronics housing, can then preferably be used as a supporting unit. According to one embodiment, fastening means for fastening the fan housing to the fume extraction device are therefore provided on the electronics housing.

The invention also relates to a fan that has a fan housing according to the invention.

According to a further aspect, the invention relates to an extractor device which is characterized in that it has at least one fan housing according to the invention. The advantages and features that are described in relation to the fan housing apply--insofar as they are applicable--to the extractor device according to the invention and the fan, and vice versa.

The extractor device preferably has at least one fan, which has a fan housing according to the invention and a fan wheel accommodated in the fan housing.

The invention is explained again below with reference to the enclosed figures. Show it:

FIG. 1 shows a schematic perspective view of an embodiment of a fan housing according to the invention;

Figure 2: a schematic perspective view of the first housing part

Embodiment according to FIG. 1;

FIGS. 3a and 3b: schematic perspective views of two embodiments of second housing parts;

FIG. 4: a schematic side view of an embodiment of the fan housing according to the invention; and

FIG. 5: a schematic side view of a further embodiment of the fan housing according to the invention.

FIG. 1 shows a schematic perspective view of a first embodiment of a fan housing 1 according to the invention. The fan housing 1 has a housing body 10 and an outlet element 11, which is also referred to below as the outlet connection piece. The housing body 10 includes the accommodation space 100 for a fan wheel (not shown). In the embodiment shown, the housing body 10 consists of two shells which are connected to one another in a plane perpendicular to the axis of the fan wheel. In addition, two air inlet openings 101 are provided on the housing body 10, only one of which is visible in FIG. The outlet port 11 extends outward from the outside of the case body 10 . At the end of the outlet socket 11 that faces away from the housing body 10 is, the outlet connector 11 has an air outlet opening 110 . In the embodiment shown, the air outlet opening 110 has a round cross section.

The areas of the fan housing 1, namely the housing body 10 and the outlet connector 11 are formed by two housing parts 13, 14. In the embodiment shown, the blower housing 1 consists of a first housing part 13 which forms the housing body 10 and a second housing part 14 which forms the outlet socket 11 . In the embodiment shown, an electronics box 15 is integrally formed on the second housing part 14 . The electronics box 15 extends partially around the air outlet opening 110 and is formed on the end of the second housing part 14 with which the second housing part 14 is connected to the first housing part 13 . Fastening elements 150 are provided at the end of the electronics box 15, which lies at the end of the second housing part 14, at which the air outlet opening 110 lies, via which the electronics box 15 and above that the entire fan housing 1 can be fastened to the extractor device (not shown). .

FIG. 2 shows the first housing part 13 without the second housing part 14 in a perspective view. As can be seen from this view, a passage opening 130 with a rectangular cross section is formed on the first housing part 13, through which air can pass from the receiving space 100 of the first housing part 13 into the outlet socket 11 and via it to the air outlet opening 110 (see Figure 1 ). A nose 12 is formed at the transition between the housing body 10 and the outlet socket 11 due to the tangential orientation of the outlet socket 11 . In the embodiment shown, the dividing plane T, at which the first housing part 13 can be connected to the second housing part (not shown in Figure 2), lies after the nose 12 in the direction of flow, i.e. between the nose 12 and the nose in the second housing part 14 formed air outlet opening 110 (s. Figure 1).

In Figures 3a and 3b two embodiments of second housing parts 14 are shown, which can be selectively connected to the first housing part 13 of Figure 2 to form a fan housing 1 in each case.

In the embodiment of FIG. 3a, the second housing part 14 has an air outlet opening 110 which has a rectangular cross section. the Air outlet opening 110 here has a larger area than passage opening 140, which is present at the opposite end of second housing part 14 and forms parting plane T, via which second housing part 14 is connected to first housing part 13. For the transition from the smaller passage opening 140 of the second housing part 14 to the air outlet opening 110 , a fold 16 in the form of a curved wall is provided on the second housing part 14 .

In the embodiment of FIG. 3b, the second housing part 14 has an air outlet opening 110 which has a round cross section. In addition, the air outlet opening 110 is offset from the passage opening 140 which lies in the parting plane T. For the transition from the rectangular passage opening 140 at one end of the second housing part 14 and the round air outlet opening 110 at the other end of the second housing part 14, the embodiment according to FIG.

FIG. 4 shows a schematic side view of an embodiment of the fan housing 1 according to the invention. In this embodiment, the parting plane T between the first and second housing parts 13, 14 is arranged between the nose 12 on the housing body 10 and the air outlet opening 110. The parting plane T is parallel to an imaginary plane in which the central axis A of the housing body 10 is located. In this embodiment, the second housing part 14 therefore includes a part of the outlet connector 11.

FIG. 5 shows a further embodiment of the fan housing 1 according to the invention. In this embodiment, the parting plane T between the first and second housing parts 13, 14 lies between the central axis A of the housing body 10 and the lug 12. In this embodiment, the second housing part 14 therefore includes the entire outlet connector 11 and part of the housing body 10.

With the present invention, an optimization of the necessary installation space and the modularity of the fan housing is thus achieved.

According to one embodiment, the invention relates to a fan housing in the form of a spiral housing in which a fan wheel can be arranged, which is part of a Working machine is, with an additional parting plane through the fan housing, in particular the volute housing. The parting plane can be designed in such a way that it is preferably parted from the nose, which can also be referred to as a spiral tongue. Alternatively, the separation can also be carried out before the spiral tongue and the spiral tongue is part of the second housing part.

The outlet element, which can also be referred to as the outlet of the spiral, is preferably formed in a separate component, namely the second housing part, up to the air outlet opening, on which a connection flange can also be provided. This component or second housing part can be individually adapted to the place of use of the blower in order to save space by implementing necessary cross-sectional changes of the outlet directly in the second housing part.

Due to its modularity, the invention offers considerable advantages when it comes to integration into various target applications. For circulating air extractors, for example, there is no need for a round air outlet. A round air outlet opening, especially the round standard connection, is ideal for extractor hoods. In the case of special solutions such as table ventilation, which blow into the base area of the kitchen, a Naber adapter with 90° deflection can be integrated into the fan housing, especially the second housing part. Furthermore, electronic circuit boards can be placed in the upper area of the blower to save as much space as possible.

Reference List

1 blower housing

10 housing body (housing area)

100 recording room

101 air inlet opening

11 outlet nozzle (outlet area)

110 air outlet opening

12 nose

13 housing part

130 port

14 housing part

140 port

15 electronics box

16 edging

T parting line

A central axis

Claims

patent claims

1. Fan housing (1) for an extractor device, which has a housing body (10) and an outlet element (11), the housing body (10) serving to accommodate a fan wheel, the outlet element (11) extending over the outer circumference of the housing body (10 ) extends outwards and at the end of the outlet element (11) which faces away from the housing body (10), the air outlet opening (110) of the fan housing (1) is provided, characterized in that the fan housing (1) consists of a first housing part ( 13) and a second housing part (14), wherein the parting plane (T) between the two housing parts (13, 14) lies parallel to a plane in which the central axis (A) of the housing body (10) lies, and the parting plane ( T) lies between the central axis (A) and the air outlet opening (110) of the fan housing and the second housing part (14) forms at least part of the outlet element (11).

2. Blower housing according to claim 1, wherein the transition between the housing body (10) and the outlet element (11) forms a nose (12) at one end in the circumferential direction and the parting plane (T) between the nose (12) and the air outlet opening (110 ) lies.

3. Fan housing according to claim 1, wherein the transition between the housing body (10) and the outlet element (11) forms a nose (12) at one end in the circumferential direction and the parting plane (T) between the nose (12) and the central axis (A ) of the housing body (10).

4. Fan housing according to claim 1, wherein the outlet element (11) forms one of the housing parts (13, 14).

5. Fan housing according to one of claims 1 to 4, wherein the housing parts (13, 14) are detachably connected to one another.

6. Fan housing according to one of claims 1 to 5, wherein the cross section of the air outlet opening (110) is round or angular.

7. Fan housing according to one of claims 1 to 6, wherein the second housing part (14), in which the air outlet opening (110) is provided, consists at least partially of an acoustically damping material.

8. Fan housing according to one of claims 1 to 6, wherein the second housing part (14), in which the air outlet opening (110) is provided, consists at least partially of an acoustically permeable material.

9. Fan housing according to one of claims 1 to 8, wherein the outlet element (110) has a fold.

10. Fan housing according to one of claims 1 to 9, wherein an electronics housing (15) is provided on the second housing part (14) on which the air outlet opening (110) is provided.

11. Fan housing according to claim 10, wherein on the electronics housing (15) fastening means for fastening the fan housing (1) are provided on the fume extraction device.

12. Fan for extractor device, characterized in that it has a fan housing according to one of claims 1 to 11.

13. Extractor device, characterized in that it has at least one fan according to claim 12.