WO2014198636A1 - Fan device for an extractor hood, and extractor hood - Google Patents

Abstract

The invention relates to a fan device for an extractor hood, said fan device having a fan housing (10) and at least one sensor unit (2) with at least one sensor (21) and at least one printed circuit board (20). The fan device (1) is characterized in that the printed circuit board (20) of the sensor unit (2) is held on the outer face of the fan housing (10); the sensor (21) is provided on the printed circuit board (20) and extends at least partly through the wall (100) of the fan housing (10); and the fan device (1) has at least one cover (13) which is removably secured to the outer face of the fan housing (10) and by means of which at least the printed circuit board (20) of the sensor unit (2) is held in a preloaded manner in the direction towards the outer face of the fan housing (10). The invention additionally relates to an extractor hood with such a fan device (1).

Description

 Fan device for an extractor hood and extractor hood

The invention relates to a fan device for an extractor hood and an extractor hood with such a fan device.

In extractor hoods, it is known to use sensors to determine the quality of the air and in particular the quantity of foreign particles in the air. Based on these measurement results, then, for example, the operating mode of the hood can be changed or information about the measurement result can be output.

One problem that arises when using sensors is their positioning. For the determination of foreign particles in the air, for example

Ultrasonic sensors used. Such sensors require an additional reflector. This must be precisely aligned with the sensor so that it can detect the foreign particles in the air that flow through the measuring section.

The object of the present invention is therefore to provide a solution in which a sensor can optimally detect the fumes present in the air stream and / or other impurities without adversely affecting the performance of the extractor hood.

The invention is based on the finding that this object can be achieved by the sensor by suitable devices on the outside of a

Fan housing of the hood is held in position.

The object is therefore achieved according to a first aspect by a fan device for an extractor hood, which comprises a fan housing and at least one sensor unit with at least one sensor and at least one circuit board. The fan device is characterized in that the circuit board of the sensor unit is held on the outside of the fan housing, the sensor is provided on the board and at least partially extends through the wall of the fan housing, the fan device has at least one cover which on the outside of the fan housing solvable is fixed and is held biased by the at least the circuit board of the sensor unit in the direction of the outside of the fan housing.

As a fan device for an extractor hood in the context of the invention, a device is referred to, in which the fan, which is also referred to as a blower, is provided. The fan device according to the invention comprises a fan housing and at least one sensor unit. As fan housing in this case, the housing is called, which surrounds the fan, that is usually the one or more fan wheels, directly. The fan housing, for example, a screw housing or

Represent twin-screw housing, which are also referred to as spiral fan housing. The sensor unit according to the present invention comprises at least one sensor and at least one circuit board. The at least one sensor preferably represents an odor sensor. The sensor preferably represents a sensor head on which the actual sensor element is provided. The sensor is inventively provided on the circuit board of the sensor unit. The board is a flat, usually rectangular component. The sensor is preferably provided on the underside of the board and is beyond the surface of the board down out. The underside of the board is the side which, in the mounted state of the sensor unit, faces the outside of the fan housing.

The circuit board of the sensor unit is preferably via fastening means on the

Fan housing attached. The fastening means may be at least partially formed integrally with the fan housing. The fastening means are preferably formed at least partially on the fan housing. The fan housing is usually a one-part or multi-part injection-molded part. In particular, the fan housing can for example consist of two housing halves, which can be interconnected.

According to the invention, the board of the sensor unit on the outside of the

Fan housing held. As the outside of the fan housing, the side is referred to, which faces away from the fan received in the fan housing. As at the

Outside of the fan housing is held within the meaning of the invention, an attachment of the board referred to, in which this at least on the outside of the fan housing partially applied or at a defined distance to the outside of the

Fan housing is held.

According to the invention, the sensor is provided on the board and extends in the assembled state of the board at least partially through the wall of the fan housing. In particular, extends at least the bottom of the sensor, that is the

Sensor head far enough through the wall of the fan housing, that this is in contact with the interior of the fan housing. The underside of the sensor is the side of the sensor, which faces away from the board. The underside of the sensor may be flush with the inside of the fan housing or offset outwardly from the inside of the fan housing. In the wall of the fan housing, a passage is provided, through which the sensor extends at least partially.

The fan device according to the invention comprises at least one cover which is releasably secured to the outside of the fan housing. The cover can also be referred to as a cover and serves to cover at least part of the circuit board of the sensor unit. In particular, the top of the board is at least partially covered by the cover. The cover is hereby preferably only in regions at the top of the board, which will be explained in more detail later. The detachable attachment of the cover to the fan housing is preferably a snap-in connection. However, other types of connection can be selected in which the cover can be separated from the fan housing without destruction. For example, the cover can be screwed to the fan housing. According to the invention, at least the circuit board of the sensor unit is held biased in the direction of the outside of the fan housing via the cover. As biased held according to the invention a holder of the board is referred to, in which a compressive force is exerted on at least a portion of the top of the board. When

Counter bearing to the pressure force at the bottom of the board rests, the

Outside of the wall of the fan housing serve. However, it is also possible according to the invention that support surfaces for supporting the underside of the circuit board are formed or fastened to the outside of the wall of the fan housing. By holding the circuit board of the sensor unit on the outside of the fan housing, this is not in the flow region of the air, which by the fan in the

Fan housing is generated. However, since, according to the invention, the sensor provided on the board extends at least partially through the wall of the fan housing, data can be acquired via the sensor which provides information about the air in the housing

Give fan housing. Through the cover, the invention part of

Fan device is the sensor unit and in particular the board before

Protected impurities that can get from the outside to the fan housing. Since the cover is detachably attached to the outside of the fan housing, the sensor unit can be easily accessed for maintenance and cleaning purposes and, for example, the board can be exchanged with the sensor. Finally, by holding at least the circuit board of the sensor unit in the direction of the outside of the fan housing via the cover, precise alignment of the sensor provided on the circuit board with the interior of the fan housing can be ensured. Since the biased positioning is performed by the cover, this fulfills at least two functions at the same time, namely the protection of the board and the positioning or mounting of the board. The multifunctionality of the cover thus simplifies the entire construction of the fan device. In summary, it follows that a solution is created by the fan device according to the invention, in the impurities in the air flow of a

Extractor hood can be reliably detected and thereby on the one hand, the performance of the hood is not affected and on the other hand

Overall structure of the fan device and thus their manufacture and maintenance is easy.

According to a preferred embodiment, the cover is attached to the fan housing via latching means. This type of attachment of the cover has the advantage that on the one hand, the overall structure of the fan device is simplified, since the

Part number is reduced compared to, for example, a screw connection. On the other hand, a connection can be easily and quickly solved and produced by locking means. Thus, the maintenance of the fan device is simplified. Since the circuit board of the sensor unit is biased by the cover according to the invention in the direction of the outside of the fan housing, by latching the Detent means at the same time the cover are attached to the fan housing and the board are securely held on the fan housing. By the latching connection via latching means usually can be easily and quickly performed, the board can be easily applied to the outside of the fan housing or provided support surfaces before the production of the locking connection to be then held by the cover fixed to the fan housing. A separate insertion or pivoting for mounting the board can therefore be omitted and a

Damage to the board during assembly can be prevented.

According to a preferred embodiment, at least one positioning pin for the board is provided on the outside of the fan housing, which extends from the outside of the fan housing to the outside. Preferably, at least two

Positioning pin provided on the outside of the fan housing. The one or more positioning pins are preferably formed integrally with the fan housing, that is formed on the wall of the fan housing. By providing one or more positioning pins on the outside of the fan housing, the board of the sensor unit can be prevented from moving along the outside of the fan housing. In addition, in particular in positioning pins on which at least one support surface is provided for the underside of the board, the board are kept at a defined distance from the outside of the fan housing. In this way, the relative position of the underside of the sensor can be set to the inside of the wall of the fan housing. The bearing surfaces are preferably provided on the side of the positioning pins, which are remote from the outer wall of the fan housing. The bearing surface of the positioning pin is preferably spaced from the free end of the positioning pin, that is offset to the free end in the direction of the outer wall of the fan housing.

According to a further preferred embodiment is at least one of

Positioning pin at least one locking means for securing the cover of

Sensor unit provided. In this embodiment, there is thus the advantage that the positioning pins serve in addition to the positional position of the board and the attachment of the cover, which in turn exerts a compressive force on the board. As a result, the structure of the fan device and thus their manufacture and maintenance is further simplified. The one or more locking means are preferably on the positioning pin molded, that are designed in one piece with the positioning pin. As a result, the number of components of the fan device is reduced, since separate locking means for fixing the cover are not necessary. This simplifies the

Overall construction of the fan device continues.

According to the invention, the cover has at least one spring element for applying a compressive force to the circuit board of the sensor unit. By a spring element is provided, and manufacturing tolerances in the manufacture of the cover and the fan housing and the fastening means, such as

Positioning pins are taken into account. In addition, in a cover having the at least one spring element, the assembly, that is, the assembly of the fan device is simplified. In particular, the board can first on the

Fan housing or provided thereon positioning and then the cover can be applied to the one or more spring elements without that spring elements must be aligned and held separately. The spring element or the spring elements are preferably formed integrally with the cover. For example, the spring elements may be tabs formed from the material of the cover in the cover. But it is also possible that the one or more spring elements on the inside of the cover, that is, the side of the cover, which faces the top of the board, are attached.

According to a preferred embodiment, the cover has side walls, in the side walls of the cover, at least one locking receptacle for receiving a locking means of the positioning pin is provided and in the top surface of the

Cover is provided at least one spring element. The top surface is the part of the receptacle which, in the installed state, is adjacent to the upper side of the circuit board and preferably lies parallel to the upper side of the circuit board. Preferably, at least two, more preferably four side walls are provided. The side walls extend from the edge of the top surface. The cover points at this

Embodiment thus a shell shape or open box shape. These

Embodiment of the cover is of particular advantage, since on the one hand, a reliable protection of the sensor unit can be ensured from contamination and on the other hand, the fastening means are optimally arranged on the cover order on the one hand to ensure a secure latching connection with the fan housing and on the other hand a reliable pressure force on the top of the board.

According to a preferred embodiment, the sensor unit is in the range of

Air outlet attached to the fan housing. As a region of the air outlet of the fan housing according to the invention preferably the region of the fan housing is referred to, which is formed by a Luftauslassstutzen or in

Flow direction of the air in front of the air outlet connection connects that is directly adjacent to the air outlet. The area of the air outlet is in the mounted state of the fan device in the hood usually the upper area.

This arrangement of the sensor unit on the fan housing, a number of advantages can be achieved. On the one hand, when positioning the sensor directly at the air outlet, which is also referred to as fan outlet, or in the vicinity of the

 Air intake no side dependency. Such a page dependency is given, for example, in an arrangement of the sensor on the electronics box cover or on the grid of the electronics box cover of the hood, laterally below the electronics box of the hood or on the inner wall of the hood in the intake of the fan. At these positions of the sensor, for example, if a sensor is arranged on the left, vapors from a pot, which is right below the hood, not or not completely detected by the sensor. In an arrangement of the sensor on the outer housing of the

Extractor hood, which may for example constitute a dining, between a light bar and an inner frame of the hood or in the electronics box of the hood, however, the sensor is outside the air flow and vapors or other contaminants are therefore not reliably detected.

In the invention preferred arrangement of the sensor in the region of

Air outlet, these disadvantages are not to be feared, since there is only one outlet from the fan housing in the exhaust pipe. At this point come from all intake routes, that is, for example, a right and a left suction of the vapor and other impurities together and can be detected. With the inventively provided arrangement of the sensor unit outside the fan housing and only a protrusion of the sensor into the interior of the

Fan housing is also the air flow in the fan housing is not adversely affected and thus the performance of the hood is not affected.

In a preferred embodiment, the sensor is an odor sensor. Compared to ultrasonic sensors where an additional reflector to the sensor is required, with an odor sensor, positioning the sensor in or on the air stream is sufficient to detect the contaminants. As a result, the structure of the fan device is further simplified.

According to one embodiment, in the fan housing in the fan housing, a passage for at least a portion of the odor sensor of the sensor unit is provided in the region of the passage at least two positioning pins are provided on the outside of the fan housing, which engage on the inside with positioning recesses of the board, on the outside the positioning pin locking means are provided, the fan device comprises a cover with side walls, in the side walls of which at least one locking receptacle for receiving a locking means of the positioning is provided, and in the top surface of the cover at least one spring element is held, which acts on the top of the board.

In this embodiment, the advantages of the present invention can be used particularly well. According to a further aspect, the invention relates to an extractor hood with a fan device. The extractor hood is characterized in that the

Fan device is designed according to the invention.

Advantages and features that are described with respect to the fan device, apply - as applicable - according to the cooker hood and vice versa and therefore may be described only once. The invention will be described again below with reference to the accompanying figures. Show it:

Figure 1 is a schematic, perspective plan view of the air outlet of the fan housing of an embodiment of the fan device according to the invention;

FIG. 2 shows a schematic sectional view through an embodiment of the fan device according to the invention; FIG. 3 shows a schematic view of the sensor unit of an embodiment of the fan device according to the invention;

FIG. 4 shows a detailed view of the sensor unit of the fan device on the fan housing according to the embodiment according to FIG. 3;

FIG. 5 shows a schematic, perspective side view of an embodiment of the fan device according to the invention; and

FIG. 6 shows a schematic inside view of the embodiment of the cover of the fan device according to FIG. 5.

FIG. 1 shows a schematic, perspective plan view of the air outlet 101, which can also be referred to as fan outlet, of an embodiment of the invention

Fan device 1 of the present invention shown. In the figure 1 it can be seen that the fan housing 10 of the fan device 1 consists of two housing halves 1 1. At the top of the fan housing 10 is in the region of the air outlet 101 a

Air outlet formed. At this example, an exhaust pipe can be connected. In the area of the air outlet 101 and in the illustrated embodiment below the exhaust air outlet, a passage 102 is provided in the wall 100 of the fan housing 10, which is also referred to as a housing wall. The aperture 102, in the illustrated embodiment, is a circular recess formed on the

Contact line of the two housing halves 1 1 is formed by respective semicircular recesses in the edges of the two housing halves 10. Through this aperture 102, a sensor 21 of a sensor unit 2 protrudes into the interior of the fan housing. In the shown view, only the underside of the sensor 21 can be seen. This is in the illustrated embodiment flush with the inside of the housing wall 100th

FIG. 2 shows a schematic sectional view through an embodiment of the fan device 1 according to the invention. In this view it can be seen that on the outside of the fan housing 10, a sensor unit 2 is provided. The sensor unit 2 comprises a circuit board 20, which represents a flat plate, and the sensor 21. The sensor 21 is provided on the underside of the board 20 and projects through the wall 100 of the fan housing 10 therethrough. The board 20 is connected via cables to other components of the sensor unit 2 (not shown).

The attachment of the sensor unit 2 and in particular of the circuit board 20 will be explained in more detail below. FIG. 3 shows a schematic view of the sensor unit 2 of an embodiment of the fan device according to the invention. On the outside of the fan housing 10 four positioning pins 12 are formed in the illustrated embodiment in the region of the passage 102 for the sensor 21. Between the positioning pin 12, the board 20 is received. In this case, the printed circuit board 20 is aligned with the positioning pins 12 by means of position depressions 201 which are introduced at the longitudinal edges of the printed circuit board 20.

In the illustrated embodiment, each of the positioning pin 12 at the free end on the outside of a locking lug, which is also referred to as locking means 120. The locking lug 120 thus protrudes in the direction that is remote from the arranged between the positioning pin 12 board 20. On the inside of the positioning pin 12, that is, the side facing the board 20, a positioning projection 121 is provided on each positioning pin 12, which is directed to the board 20. These positioning projections 121 engage with the positioning recesses 201 on the board 20. Also on the inside of the positioning pin 12, a bearing surface 122 is provided on each positioning pin 12. The board 20 lies in the area around the positioning recesses 201 on the support surface 122. In the illustrated embodiment, two positioning pins 12 are provided on each of the housing halves 1 1. FIG. 4 shows a further detail view of the sensor unit 2 of the fan device 1 on the fan housing 10 according to the embodiment according to FIG. From this view, in particular the structure of the positioning pin 12 can be seen more accurately. Furthermore, it can be seen from FIG. 4 that the bearing surfaces 122 are offset relative to the outside of the housing wall 100. Thus, the board 20 is kept at a predetermined distance to the outside of the housing wall 100. At the bottom of the board 20, as shown in Figure 2, the sensor 21 is provided. In the arrangement of the circuit board 20 shown in Figure 4 at a distance from the outside of the housing wall 100, the height of the sensor 21 is so large that it covers the distance and at least partially protrudes through the housing wall 100.

After the circuit board 20, as shown in FIG. 4, has been positioned between the positioning pins 12 and in particular has been placed on the bearing surfaces 122, a cover 13 is applied. An embodiment of the cover 13 is shown in FIG. The cover 13 has a box shape open at the bottom. In the base of the cover 13, which is also referred to as the top surface 132, four spring elements 1310 are formed in the form of fixing lugs. At the bottom, that is, the inside of the cover 13 facing side of the spring elements 1310 fixing pins 131 are provided in the illustrated embodiment. From the side edges of the top surface 132 extend in the illustrated embodiment, four side walls 133 down. In the elongated side walls 133 here latching openings 130 are provided. The latching openings 130 are inserted in the cover and in particular in the side walls so that they can be aligned with the positions of the latching means 120 of the positioning pins 12 and the latching means 120 can latch into the latching openings 130.

If the cover 13 is fastened to the fan housing 10, the latching means 120 initially slide along the inner sides of the side walls 133 of the cover 13 until they engage in the latching openings 130. Due to the resilient mounting of the fixing pins 131 via the spring elements 1310 on the top surface 132 of the cover 13, the fixing pins 131 bring a compressive force on the upper side of the circuit board 20 on. The board 20 is thus between the cover 13 and the Housing wall 100 clamped. In particular, the board 20 is clamped between the fixing pins 131 from above and the bearing surfaces 122 from below.

FIG. 6 shows an embodiment of the fan device 1 according to the invention in the fully assembled state, in which it can be inserted into an extractor hood. Here, the lower edges of the cover 13 are at least partially on the outside of the housing wall 100.

With the present invention, the board of a sensor unit, on which the sensor is located, can thus be securely positioned on the fan housing of an extractor hood. The type of connection represents a backlash-free bearing. A cover, which can also be called a sensor cover, protects the board and the sensor against contamination that can be brought from outside. The secure backlash-free fixation of the sensor unit and in particular of the board takes place according to the invention via this sensor cover. For this purpose, preferably in the cover, a spring element which fixes the sensor unit and in particular the board housed.

The positioning of the sensor unit on the housing preferably takes place via at least two positioning pins, which are also referred to as centering pins, and at least two bearing surfaces, which are also referred to as bearing points, on the housing. On the centering pin are preferably additionally locking means for the locking of the lid, which can also be referred to as snap connections, is provided.

After attachment of the cover a secure backlash-free fixation of the sensor unit and in particular the board is ensured on the housing, whereby the position of the sensor is set exactly. The present invention has a number of advantages.

In particular, the positioning of the sensor is set so that detection is device-independent. In order to ensure a particularly accurate measurement, the sensor according to the invention is positioned at a position where a directional, Side-independent air flow is present. This point is preferably in the region of the air outlet of the fan housing of the extractor hood. An inclination of the sensor, which can also be referred to as sensor head, in the flow plane can be adjusted with the fan device according to the invention and has a positive effect on the detection of the sensor.

In the present invention, moreover, the sensor with board can be positioned very accurately in the device, that is to say in the extractor hood, without the need for undercuts in the tool for producing, in particular, the fan housing. The

Sensor receiving geometries, in particular the positioning pin and the Durchläse for the sensor, this can also be on different housing halves. Furthermore, it is advantageous that according to the invention the receiving geometry for the sensor unit can simultaneously serve for latching the sensor cover. As a result, no other fasteners, such as screws or brackets are needed. Furthermore, the board can be inserted with sensor and does not need to be inserted as required in the prior art. By inserting the sensor and the resilient bias through the lid, the clearance between the sensor and the housing is minimized, thereby improving the detection of the sensor and in particular more reliable.

LIST OF REFERENCE NUMBERS

1 fan device

 10 fan housing

 100 housing wall

 101 air outlet

 102 Passage for sensor

1 1 housing half

12 positioning pins

 120 locking nose

 121 Positioning projection

 122 bearing surface

 13 cover

 130 latching opening

 131 fixing pin

1310 spring element

 132 deck area

 133 sidewall

2 sensor unit

 20 board

201 positioning recess

 21 sensor

Claims

claims

1 . Fan device for an extractor hood, comprising a fan housing (10) and at least one sensor unit (2) with at least one sensor (21) and at least one circuit board (20), characterized in that the circuit board (20) of the sensor unit (2) on the Outside of the fan housing (10) is held, the sensor (21) on the board (20) is provided and at least partially through the wall (100) of the fan housing (10), the fan device (1) at least one cover (13) has, which is releasably secured to the outside of the fan housing (10) and via which at least the circuit board (20) of the sensor unit (2) in the direction of the outside of the fan housing (10) is held biased.

2. Fan device according to claim 1, characterized in that the

 Cover (13) on the fan housing (10) via latching means (120) is attached.

3. Fan device according to one of claims 1 or 2, characterized

 characterized in that on the outside of the fan housing (10) at least one positioning pin (12) for the board (20) is provided which extends from the outside of the fan housing (10) to the outside.

4. Fan device according to claim 3, characterized in that on

 at least one of the positioning pin (12) is provided at least one latching means (120) for fixing the cover of the sensor unit.

5. Fan device according to one of claims 1 to 4, characterized in that the cover (13) has at least one spring element (1310) for applying a compressive force to the board (20) of the sensor unit (2).

6. Fan device according to one of claims 3 to 5, characterized in that the cover (13) has side walls (133), in the side walls

(133) of the cover (13) at least one latching opening (130) for receiving a latching means (120) of the positioning pin (12) is provided and in the Deck surface (132) of the cover (13) at least one spring element (1310) is provided.

Fan device according to one of claims 1 to 6, characterized in that the sensor unit (2) in the region of the air outlet (101) on the

Fan housing (10) is attached.

Fan device according to one of claims 1 to 7, characterized in that the sensor (21) is an odor sensor.

Fan device according to one of claims 1 to 8, characterized in that in the fan housing (10) has a passage (102) for at least part of the odor sensor (21) of the sensor unit (2) is provided in the region of the passage (102) on the Outside of the fan housing (10) at least two positioning pins (12) are provided, which engage on the inside with Positioniervertiefungen (201) of the board (20) on the outside of the positioning (12) locking means (120) are provided, the fan device (1 ) comprises a cover (13) with side walls (133) into which

Side walls (133) of the cover (13) at least one latching opening (130) for receiving a latching means (120) of the positioning pin (12) is provided and in the top surface (133) of the cover (13) at least one

Spring element (1310) is held, which acts on the upper side of the board (20).

Extractor hood with a fan device, characterized in that the fan device (1) is designed according to one of claims 1 to 9.