DE19809562A1 - Extractor hood - Google Patents

Description

The invention relates to an extractor hood according to the preamble of claim 1.

An extractor hood of this type is from the utility model DE-GM 78 02 041 U1 known. In it are two radial fans with vertical axes of rotation in parallel ne arranged side by side. The radial fan housings are each about one Third of its scope is open. Your open pages face each other. Between they have vertical swivel axes of two flaps. With recirculation mode of the flaps they extend in front of a vertical plane in which the two Rotation axes of the radial blowers lie in the radial blowers up to close to de ren rotors and thereby prevent their air flows between the two Ro gates can get into the rear part of the extractor hood. The air flows of the two radial fans collide with each other in front of the flaps and then flow through a perforated ceiling plate in the front section of the extractor hood. When the flaps are in the exhaust mode, their free ends extend forward to a front opening edge of the blower housing, so that the Air flows from both radial fans between their rotors into the rear the other part of the extractor hood. The rotor of the radial ge on the right pale rotates clockwise when viewed from above, and the rotor of the left turns on orderly radial fan seen from above in counterclockwise direction. The fans They have a spiral casing, through which the one between them and their rotors Dete distance in the direction of rotor rotation is increasingly wider. A radial alge blower with spiral casing of this type is also from the utility model DE-G 83 08  512.2 U1 known. The bottom of the extractor hoods is usually through one Grid or perforated plate or another air-permeable plate-like element Det, over which a grease filter is arranged. From DE utility model 1 987 333 is an extractor hood with a grease filter, an odor filter with activated carbon known for separating odors and a fan, which in this series are arranged in a housing. From DE utility model 91 05 430.3 an extractor hood is known, in which a fan in the air flow path is arranged between a grease filter and an odor filter. "Recirculation mode" be indicates that the from the extractor hood above a hotplate in a kitchen sucked air after going through the grease filter and any, if any Odor filter is poured back into the kitchen. "Exhaust air operation" indicates that the air cleaned in the extractor hood from the kitchen into the Free is headed.

Extractor hoods according to the invention are used in particular as undercounter hoods Use, which can be mounted under an upper cabinet, which over a hotplate is arranged in the kitchen.

The object of the invention is to achieve a better efficiency To improve air flows for recirculation and exhaust air operation, especially in the Blowers and on their air outlets for both recirculation and exhaust air urged to create the same flow conditions. For this purpose, he should have a few parts be required and the size can be kept small.

This object is achieved according to the invention by the characterizing features of Claim 1 solved.

Through the invention, the flow conditions in the two fans and the flow cross-section of their air outlets in both modes of recirculation and exhaust air operation absolutely the same. Another advantage of the invention is that the com plette width of the blower housing can be exploited to an optimal Helical shape of the air collecting space between the impellers and their blowers to realize housing. In both exhaust air mode and recirculation mode, egg remains ne optimal shape of the screw and the fan air flows become very cure zem way out of the blowers. This results in both operating modes  same, high efficiency of the fan air delivery. For the invention who which only requires a few parts and a small size can be maintained.

Further features of the invention are contained in the subclaims.

The invention is described below with reference to the drawings based on a preferred embodiment described as an example. Show in the drawings

Fig. 1 shows schematically a plan view of a hood according to the invention in cross-section He II of Fig. 3 viewed, wherein the exhaust hood is set to recirculation mode,

FIG. 2 shows a schematic top view of the extractor hood from FIG. 1, but when set to exhaust air operation,

Fig. 3 shows schematically a reduced perspective external view of the extractor hood.

The extractor hood 2 shown schematically in Fig. 3 according to the invention has a housing 4 with a front wall 6 , side walls 7 , a rear wall 8 , a deck wall 10 and a bottom 12 , the latter at least in the range of two in the housing 4 housed 4 fans or radial blowers 14 and 16 is permeable to air. A grease filter, not shown, is located in the air path between the housing base 12 and the fans 16 . In addition, an odor filter, which can contain, for example, activated carbon as Ge odor absorbent material, can be arranged in the flow path before or after the radial fans 14 and 16 . Their rotor axes of rotation 18 and 20 are arranged vertically at a distance and parallel to each other. The extractor hood can be set to either recirculation mode or exhaust air mode. In recirculation mode, the exhaust air flows of the two radial fans 14 and 16 through recirculating air outlet openings 22 and 24 , which are formed in an oblique front section from the top wall 10 , flow back into the room (kitchen), from which the air flows through the housing bottom 12 of the blowers 14 and 16 was sucked in. In exhaust air operation, the outlet air flows of the two fans 14 and 16 in the housing 4 can be directed to the rear and then either to a ceiling exhaust air opening 26 or to a rear wall exhaust air opening 28 , from where they pass through an exhaust line (not shown) from the kitchen into the Free can be directed. The exhaust openings 26 and 28 can initially remain closed during the manufacture of the housing 4 and then either the egg ne 26 or the other 28 can be opened during installation over a hotplate.

As can be seen from the drawings 1, 2 and 3, the radial fan 14 is arranged on the left and the radial fan 16 on the right, the air outlet openings 22 and 24 are located in front of the rotor axes of rotation 18 and 20 , and the exhaust openings 26 and 28 are located behind the Rotor axes of rotation 18 and 20 .

Referring to FIGS. 1 and 2, the two radial fans are arranged in mirror image to one another 14 and 16. The housing peripheral wall 32 of the fan housing 30 surrounds the impeller arranged in it, hereinafter called rotor 34 , so that the air space formed between housing peripheral wall 32 and rotor 34 has an increasingly larger cross-section in the direction of rotation of the rotor. The rotor 34 of the left blower 14 rotates counterclockwise 36 when viewed in plan view, while the rotor 34 of the right blower 16 rotates clockwise 38 . Of the blades 40 of the rotors 34 , only a few are shown schematically as an example. The contacting exhaust air flows of the two fans 14 and 16 are shown schematically in Fig. 1 for recirculation mode by forward arrows 42 and 43 and in Fig. 2 for exhaust air operation by rearward arrows 44 and 45 . The air inlets of the blowers 14 and 16 can be arranged in any known manner and are therefore not shown. The air outlets of the two fans are each formed by an air outlet opening 50 or 54 in the housing circumference wall 32 . Each of the two air outlet openings 50 and 54 is limited in the circumferential direction by a front housing edge portion 51 and 55 and a rear housing edge portion 52 and 56 , respectively. In the transverse direction of the extractor hood, on the one hand, the front housing edge parts 51 and 55 are arranged opposite one another and the rear housing edge parts 52 and 56 are arranged opposite one another.

The two fan housing 30 , but at least their housing peripheral walls 32 with the air outlet openings 50 and 54 , are about a to the theoretical rotary axes 18 and 20 of the rotors 34 axial or coincident with them vertical rotation axis between a rotational position shown in Fig. 1 for air recirculation mode and a rotary position shown in FIG. 2 for exhaust air operation is arranged so as to be rotatable. In the rotary position shown in FIG. 1 for recirculation mode, the air outlet openings 50 and 54 are directed obliquely towards one another. In the rotary position for exhaust air operation shown in FIG. 2, the two air outlet openings 50 and 54 are arranged diagonally opposite one another to the rear. In the rotational adjustment of the housing peripheral walls 32 from the rotational position for air recirculation from FIG. 1 to the rotational position for exhaust air operation according to FIG. 2, they are adjusted by approximately 45 to 80 degrees in the same direction of rotation 36 and 38 as their rotors 34 . When switching from exhaust air mode to air mode, they are rotated in the opposite direction from the position shown in FIG. 2 to the position shown in FIG. 1. The air outlet openings 50 and 54 are rotated through an intermediate space between the rotors 34 .

The housing edge parts 51 , 52 , 55 and 56 have such a radial length and axial width that the two rear housing edge parts 52 and 56 of the air outlet openings 50 and 54 between the two rotors 34 are so close to one another in the rotational position shown in FIG are arranged, preferably abutting each other, that together they form an air barrier which blocks an air flow from the air outlet openings 50 and 54 to the rear. The design is such that, furthermore, in the rotary position for exhaust air operation shown in FIG. 2, the two front housing edges 51 and 55 between the two rotors 34 are arranged so close together, preferably touch one another, that they form an air lock together, which block an air flow from the air outlet openings 50 and 54 to the front. The other housing edge parts, 51 and 55 in Fig. 1 and 52 and 56 in Fig. 2, are each at a distance from each other in the transverse direction of the extractor hood, so that between them both outlet air flows 42 and 43 in Fig. 1 or 44 and 45 in Fig. 2 can flow through. Together they define a single outlet opening for both fans.

The fan housing 30 or at least its housing circumferential wall 32 can be adjusted either individually or together manually about the rotor axes of rotation 18 or 20 between the two rotational positions. So that both housing circumferences walls 32 with their air outlet openings 50 and 54 reach the precise rotation position of FIG. 1 or FIG. 2 with each rotation adjustment, it is expedient to connect them by mechanical connecting means in such a way that they are synchronized between the two rotation positions Fig. 1 and 2 are adjustable. Such me mechanical connection means can be, for example, a rack 60 , which has on both sides a toothing 62 or 63 , in which an external toothing 64 of the left blower housing 30 or an outer peripheral toothing 65 of the right blower housing 30 engages. The rack 60 can be manually adjusted from the front (or from the rear) of the extractor hood 2 between the front position shown in FIG. 1 for air recirculation mode and the rear position shown in FIG. 2 for exhaust air mode, while simultaneously using both housing peripheral walls 32 the air outlet openings 50 and 54 are adjusted between the rotational positions shown in FIGS . 1 and 2. Other mechanical connecting means for manual actuation of the two housing peripheral walls 32 can be cable pulls, for example.

Behind the two fans 14 and 16 is an air guide 66 is arranged centrally to them, which in the exhaust air operation shown in Fig. 2, the air outlet flows 44 and 45 of the two fans upwards to the ceiling exhaust air opening 26 . In Ab air mode shown in FIG. 2 limits the rear housing edge parts 52 and 56 on sides of the air guide walls 66 to, thereby tightly preferably on said side walls to lie, can therefore not escape laterally leakage air. Instead of the Luftleitkör pers 66 air elements could be used for the exhaust air operation shown in Fig. 2, which extend the rear housing edge parts 52 and 56 to the rear wall exhaust air opening 28 .

Claims (6)

1. Extractor hood with two axially parallel Ra dial blowers, the blower housing of which has an air outlet ( 50 , 54 ) formed in a housing circumferential wall ( 32 ), which are arranged adjacent to one another and whose air outlet flows can be set optionally for recirculation mode or for exhaust air mode, characterized in that that the two fan housings ( 30 ), at least their housing peripheral walls ( 32 ), together with their air outlets ( 50 , 54 ) each about an axis of rotation ( 18 , 20 ) of their impeller ( 34 ) axial axis of rotation between a rotational position for recirculation mode, in which the Air outlets ( 50 , 54 ) are arranged on the front of the blower, and a rotational position for exhaust air operation, in which the air outlets are arranged on the back of the blower, are arranged rotatably. 2. Extractor hood according to claim 1, characterized in that the air outlets ( 50 , 54 ) are rotatable through a gap between the impellers ( 34 ). 3. Extractor hood according to one of the preceding claims, characterized in that mechanical connecting means ( 60 , 62 , 63 , 64 , 65 ) are provided for synchronously rotating the two air outlet openings ( 50 , 54 ). 4. Extractor hood according to one of the preceding claims, characterized in that each air outlet ( 50 , 54 ) in the circumferential direction by egg nen front housing edge part ( 51 , 55 ) and a rear housing edge part ( 52 , 56 ) is limited that in the transverse direction of the extractor hood vorde ren housing edge parts ( 51 , 55 ) of the two air outlets are arranged opposite one another and the rear housing outlets ( 52 , 56 ) are arranged opposite one another, that in the rotational position for circulating air operation, the two rear housing edge parts ( 52 , 56 ) in the area between the two impellers ( 34 ) are arranged so close together that they together form an air lock to prevent air flow to the rear, while the two front housing edge parts ( 51 , 55 ) are arranged at a distance from one another on the blower front and limit an air outlet path between them that the two v orde ren housing edge parts ( 51 , 55 ) between the two impellers ( 34 ) are arranged so close together that they together form an air lock to prevent an air flow to the front, while the two rear housing edge parts ( 52 , 56 ) are arranged at a distance from one another and between limit an air outlet path for the two fans laterally. 5. Extractor hood according to one of the preceding claims, characterized in that behind the blowers ( 14 , 16 ) air guide means ( 66 ) are arranged, to which the rear housing edge parts ( 52 , 56 ) adjoin in the rotational position for exhaust air operation to the air outlet flows of the two To direct blowers to these air guiding means ( 66 ). 6. Extractor hood according to one of the preceding claims, characterized in that seen in plan view, the left impeller ( 34 ) counterclockwise ( 36 ) and the right impeller ( 34 ) clockwise ( 38 ) can be driven bar.