DE102022002178A1 - Air vent for a ventilation device for a motor vehicle - Google Patents

Abstract

The invention relates to an air vent (10) for a ventilation device (12) for a motor vehicle, with a line element (14) through which air can flow, with an outlet opening (16) through which the air flowing through the line element (14) comes out of the line element (14). can be flowed out and introduced into an interior (18) of the motor vehicle, with an air guiding device (30) having an air guiding element (28), which is arranged in the line element (14) so as to be pivotable about a pivot axis (32), whereby the air guiding element (28) passes through the pivoting of the air guide device (30) can be pivoted about the pivot axis (32), and with at least one second air guide element (40) made of a flexible material (38), which can be specifically deformed to deflect the air flowing through the line element (14), wherein the air vent (10) has a coupling device (41), by means of which the air guide device (30), which can be pivoted about the pivot axis (32), is coupled to the second air guide element (40), and by pivoting the air guide device (30) about the pivot axis (32) the second air guide element (40) is deformed.

Description

The invention relates to an air vent for a ventilation device for a motor vehicle according to the preamble of patent claim 1.

The DE 10 2019 003 570 A1 discloses an air outlet unit for a vehicle ventilation of a vehicle, comprising a housing and at least one flexible air guide element, the housing being curved, the at least one flexible air guide element having a curved shape in a neutral position, and the at least one flexible air guide element, starting from the neutral position, is deformable into at least one less curved position and into at least one more strongly curved position.

The object of the present invention is to create an air vent for a ventilation device for a motor vehicle, so that air can flow through the air vent in a particularly advantageous manner.

This object is achieved according to the invention by an air vent for a ventilation device for a motor vehicle with the features of patent claim 1. Advantageous embodiments with useful developments of the invention are specified in the remaining claims.

The invention relates to an air vent for a ventilation device, in particular an air conditioning device, for a motor vehicle. The motor vehicle is preferably designed as a motor vehicle, in particular as a passenger car, commercial vehicle or truck. The air conditioning device is designed, for example, as an air conditioning system. Preferably, the motor vehicle has the ventilation device in its fully manufactured state. The ventilation device is intended for ventilating, in particular for air conditioning, the motor vehicle, in particular an interior of the motor vehicle. The interior can be referred to in particular as a vehicle interior or as a passenger cell.

The air vent has at least one line element through which air can flow. The air vent has, for example, at least one wall which delimits the line element at least partially, in particular completely. The wall can be understood in particular as a housing or a housing part of the housing.

The air vent has at least one outlet opening through which air can flow, through which the air flowing through the line element can flow out of the line element, in particular from the air vent, and be introduced into the interior of the motor vehicle. In other words, the air flowing through the line element can be removed from the line element and introduced into the interior of the motor vehicle, that is, supplied to the interior. In other words, the line element and the interior are or can be fluidly connected to one another via the outlet opening, in particular directly. The outlet opening can in particular be referred to as an air outlet.

The air vent has an air guide device, in particular through which air can flow, which is arranged in the line element so as to be pivotable about a pivot axis. In other words, the air guiding device is located within the line element, wherein the air guiding device can be pivoted about the pivot axis relative to the housing element. This means that the air guide device is rotatably mounted or held in the line element or in the housing. The air guiding device can in particular be referred to as a guide body, in particular an internal guide body. For example, the air guiding device can be pivoted between at least two pivot positions about the pivot axis, in particular relative to the wall.

The air guiding device has at least one air guiding element, in particular through which the air can flow and/or flow around. In other words, the air guide element of the air guide device can be acted upon by the air flowing through the line element, in particular can flow through it and/or flow around it. For example, the air guiding device has a receiving space in which the air guiding element is arranged. The recording room can in particular be referred to as a recording room.

For example, the receiving space is at least partially delimited by a wall area of the air guiding device. The air guide element is preferably designed like a lamella or lamella. This means that the air guiding element preferably comprises at least one slat, in particular several slats.

Because the air guide device is arranged in the line element so as to be pivotable about the pivot axis, the air guide element can be pivoted about the pivot axis by pivoting the air guide device relative to the wall delimiting the line element. In other words, when the wall area of the air guide device is pivoted about the pivot axis, the line element is also pivoted with the wall area. This means that the air guide ment can follow a pivoting movement or rotational movement of the guide body, in particular of the wall area. The pivot axis can in particular be referred to as the first pivot axis. The pivot axis can in particular be referred to as a rotation axis. The air-guiding element can in particular be referred to as the first air-guiding element.

The air vent has at least one second air guide element made of a flexible material, which can preferably be surrounded by the air flowing through the line element. The second air-guiding element is preferably formed separately from the air-guiding device, in particular from the first air-guiding element. The flexible material can be understood to mean, in particular, an elastic and/or a deformable, in particular bendable, material. The flexible material is preferably a material that is different from the air guiding device, in particular from the first air guiding element. This means that the air guiding device, in particular the first air guiding element, is preferably formed from a further material which is different from the flexible material. The further material is preferably a rigid material. This means that the further material is preferably not a flexible material. The second air guide element can be acted upon by the air flowing through the line element. The second air-guiding element can be referred to in particular as a flexible air-guiding element, in particular as a flexible slat. For example, the flexible material is rubber.

The second air guide element can be specifically deformed for, in particular targeted, redirection of the air flowing through the line element and in particular flowing around or acting on the second air guide element. In other words, the targeted deformation of the second air guide element allows the air flowing through the line element to be redirected, in particular in a targeted manner.

For example, the second air guide element is movable or deformable between at least two positions by deforming the second air guide element. This means that the second air guide element has, for example, a first shape in the first position and, for example, has a second shape that is different from the first shape in the second position. The second shape may be more or less curved than the first shape. In particular, if the second shape is more curved than the first shape, the air flowing through the line element can be deflected more strongly in the second position than in the first position. In particular, if the second shape is less curved than the first shape, the air flowing through the line element can be deflected to a lesser extent in the second position than in the first position. For example, the air flowing through the line element flows through the line element in a first flow direction downstream of the second air guide element. When the second air guide element is in the first position, the air flowing through the line element can be redirected, in particular from the first flow direction, into a second flow direction, in particular different from the first flow direction. When the second air guide element is in the second position, the air flowing through the line element can be redirected, in particular from the first flow direction, into a third flow direction that is different from the first flow direction and/or the second flow direction. The second and/or the third flow direction runs, for example, obliquely or perpendicularly to the first flow direction. The deformation of the second air guiding element can be, for example, a concave and/or a convex deformation.

In order to be able to flow through the air vent, in particular the line element, in a particularly advantageous manner, it is provided according to the invention that the air vent has at least one, in particular mechanical and/or electrical, coupling device, by means of which the air guide device which can be pivoted about the pivot axis is coupled to the second air guide element, and that the second air guiding element is deformed by pivoting the air guiding device about the first pivot axis. In other words, the air-guiding device and the second air-guiding element are coupled to one another in such a way that the deformation of the second air-guiding element can be brought about by pivoting the air-guiding device about the pivot axis. In other words, when the air guide device is pivoted about the pivot axis, the second air guide element is specifically deformed, in particular and vice versa.

For example, by pivoting the air guide device, in particular from the second pivot position, into the first pivot position, the deformation or movement of the second air guide element, in particular from the second position, into the first position can be brought about. For example, by pivoting the air guiding device, in particular from the first pivoting position, into the second pivoting position, the pivoting or movement of the second air guiding element, in particular from the first position, into the second position can be brought about. This means that the second air guide element is in the first position is located when the air guiding device is in the first pivoting position and that the second air guiding element is in the second position when the air guiding device is in the second pivoting position. For example, at least one moment can be introduced into the second air-guiding element by means of the coupling device or via the coupling device, the moment leading to the deformation of the second air-guiding element. In other words, the second air-guiding element can be acted upon, in particular by means of the coupling device or via the coupling device, with a moment, in particular provided or able to be provided by the coupling device, by which the deformation of the second air-guiding element can be brought about. The moment can be understood in particular as a torque or a bending moment. The, in particular targeted, deformation can cause a targeted deflection of the air flowing through the air guide element, which can be referred to in particular as air deflection. Thus, the air deflection can be controlled by the moment.

The invention is based in particular on the following findings and considerations: In principle, it is conceivable to provide one or more horizontal slats for vertical air deflection and several vertical slats for horizontal air deflection in the air vent. The air vent can therefore be referred to in particular as a lamella-like air vent. In particular, if the air vent or the lamella-like air vent is designed to be particularly slim, a particularly strong reduction in cross-section at the air outlet can occur when the horizontal slats are deflected from their neutral position, since part of the horizontal slats are particularly strong in the event of a particularly strong deflection, which can be described in particular as an extreme position. may be blocked. This can lead to particularly high pressure losses in the air vent. This can result in particularly high flow velocities of the air flowing through the air vent, in particular the line element. Furthermore, disturbing noises can occur, which can be noticeable, for example, in the interior and therefore for vehicle occupants. Furthermore, the maximum air deflection that can be achieved by the slats can be particularly limited or not optimal.

In contrast, the air vent according to the invention can be flowed through by air particularly advantageously. The flexible air guide element allows a particularly good, in particular particularly efficient and/or particularly pronounced, air deflection of the air flowing through the line element, without thereby particularly reducing a cross section of the air vent through which the air can flow, in particular at or in the outlet opening. The cross section through which the air can flow can thus be particularly increased or kept particularly high. As a result, the pressure loss can be kept particularly low, especially in each of the pivot positions or positions. This means that the background noise can be avoided or kept particularly low. As a result, comfort for vehicle occupants of the motor vehicle can be particularly increased. The flexible air guide element allows the air to be deflected in a particularly flow-optimized manner, particularly in the vertical direction. This means that the flexible air guide element, which can in particular be referred to as a flexible guide lamella, has a flow-optimized course or a flow-optimized shape or can be moved into this shape. Through the coupling device, the movement or deformation of the second air guiding element can be effected and thus ensured by pivoting the air guiding device. As a result, particularly when the air guiding device, in particular the first air guiding element, and the second air guiding element are arranged particularly close to one another, a collision between the air guiding device, in particular the first air guiding element, and the second air guiding element can be prevented. As a result, the air guide device, in particular the first air guide element, and the second air guide element can each be arranged in the line element in a particularly streamlined manner, whereby the line element or the air vent can be flowed through, for example, particularly advantageously, in particular particularly efficiently or with particularly low flow losses. Furthermore, the air guiding device and the second air guiding element can be pivoted or moved with particularly little effort by the coupling device. This means that the air guiding device and the second air guiding element can be controlled together for pivoting or moving and thus there is no need for separate control. As a result, for example, the cost of producing the air vent can be kept particularly low. In particular, costs, for example manufacturing costs, of the air vent can be kept particularly low. Furthermore, the installation space of the air vent can be designed particularly advantageously, in particular kept particularly small.

In a further embodiment, it is provided that the first air guide element runs obliquely or perpendicularly to the pivot axis, relative to the wall, and in particular special relative to the second air guide element and / or to the wall area, is pivotable. In other words, the first air guide element can be pivoted about the first pivot axis and about the second pivot axis relative to the wall. This allows the flow direction of the air flowing through the air guide element to be adjusted particularly flexibly. In other words, the air flow can be flowed through particularly flexibly, particularly as required. This allows the interior to be ventilated, in particular air-conditioned, as required. As a result, the comfort of the motor vehicle can be particularly increased.

It is preferably provided that an angle at which the pivot axes extend to one another is constant or remains constant when pivoting or during pivoting of the air guiding device. In other words, the air guide device, in particular the first air guide element, and the second air guide element can be coupled or coupled to one another by means of the coupling device in such a way that the angle at which the pivot axes extend to one another is constant or remains constant when the air guide device is pivoted. This means that the angle does not change while the air deflector is pivoted. The fact that the pivot axes run at an angle to one another can be understood in particular to mean that the pivot axes run at an angle to one another. This means in particular that the pivot axes are at an angle to one another or intersect at an angle, that is, forming the angle.

In a further embodiment, it is provided that the air-guiding device has at least one third air-guiding element formed separately from the first air-guiding element.

The third air guide element can be acted upon by the air flowing through the line element, in particular can flow around it. As a result, the air flow can be flowed through in a particularly advantageous manner. In particular, the air deflection, in particular the horizontal air deflection, can be particularly optimized. The third air guiding element is preferably not pivotable about the second pivot axis. Therefore, the third air-guiding element can be referred to in particular as a fixed air-guiding element in relation to the first air-guiding element. The third air-guiding element can be pivoted about the first pivot axis by pivoting the air-guiding device about the pivot axis, in particular relative to the wall.

Preferably, the first air-guiding element is mounted, in particular directly, on the third air-guiding element relative to the third air-guiding element about the second pivot axis, in particular directly. In other words, the third air guide element is designed as a bearing point for the first air guide element. Again in other words, the first air-guiding element is held, in particular directly, on the third air-guiding element so as to be pivotable about the second pivot axis relative to the third air-guiding element.

In a further embodiment, it is provided that an axial direction of the line element runs in a first direction, in particular in the flow direction of the air flowing through the line element, upstream of the air guide device, in particular the first air guide element, and in a first direction and in a, in particular in the flow direction of the second length region of the air guiding element flowing through the line element and arranged downstream of the air guiding device, in particular of the first air guiding element, in a second direction. In other words, the axial direction extends in the first length range in the first direction and in the second length range in the second direction, the first subregion of the air guide device being arranged, and the second subregion being arranged downstream of the air guide device, in particular downstream of the second air guide element . The directions run at a maximum angle of 45 degrees, in particular a maximum of 30 degrees, for example 20 degrees, in particular exactly 20 degrees, to one another. This means that the directions run at a maximum angle of 45 degrees, in particular 30 degrees, for example 20 degrees, to one another. In other words, the angle at which or at which the directions extend to one another is less than 45 degrees, in particular less than 30 degrees, for example less than 20 degrees. As a result, the curvature of the air vent, in particular the wall, can be kept particularly low. As a result, the air vent, in particular a housing element of the air vent, can be designed to be particularly flat. As a result, the installation space of the air vent can be designed particularly advantageously, in particular kept particularly small. Therefore, the air vent can be referred to in particular as a flat air vent.

In a further embodiment, it is provided that the second air-guiding element is held on the air-guiding device, in particular directly, in particular via the coupling device. In other words, the second air-guiding element is connected to the air-guiding device, in particular directly, in particular via the coupling device. Through this The air guiding device and the second air guiding element can be coupled to one another with particularly little effort.

For example, the air-guiding device has a receiving area in which a portion of the second air-guiding element is accommodated. For example, the receiving area is at least partially limited, in particular directly, by the wall area of the air guiding device. The second air-guiding element can be held, in particular directly, on the air-guiding device, in particular on the wall region, via the partial area accommodated in the receiving area. As a result, at least the partial area of the second air-guiding element can be moved with the air-guiding device when the air-guiding device is pivoted about the first pivot axis, in particular relative to the wall. By moving the partial area, the second air guide element can be deformed. For example, the second air guiding element is held at one end on the air guiding device, in particular on the wall area, preferably directly. In other words, the partial region of the second air-guiding element is designed, for example, as an end region of the second air-guiding element.

It is preferably provided that the first pivot axis and/or the second pivot axis runs through the second air guide element. In other words, it is preferably provided that the first pivot axis and/or the second pivot axis intersects the second air guide element. As a result, the second air-guiding element and the air-guiding device can be coupled particularly advantageously, in particular with particularly little effort.

For example, the second air guide element is arranged centrally in the first pivot axis of the air guide device. This means that, for example, the partial region of the second air guiding element is arranged in the first pivot axis and is held on the air guiding device, in particular on the wall region, so that it can pivot about the first pivot axis relative to the wall.

In a further embodiment, it is provided that the second air-guiding element has at least one holding region, via which the second air-guiding element is held in the line element or in the air vent so that it can pivot relative to the wall, in particular about a third pivot axis. In other words, the second air guide element is mounted on the holding area so that it can be pivoted or rotated in the line element or in the housing. Again in other words, the holding area of the second air guide element is held in the line element or the air vent so that it can pivot relative to the wall. Thus, the deformation of the second air guide element can be effected, in particular in a targeted manner, by pivoting the holding area. The holding area can in particular be referred to as the first holding area.

For example, the holding area is the partial area of the second air-guiding element or a second partial area of the second air-guiding element that is different from the partial area, in particular at a distance from the partial area. This means that the partial area of the second air guiding element can be designed as the holding area. For example, the holding area is arranged in the area of the outlet opening, in particular at the outlet opening or in the outlet opening.

The third pivot axis can correspond to the first pivot axis or the third pivot axis can be different from the first pivot axis and, for example, be spaced from the first pivot axis. This means that the third pivot axis can be the first pivot axis. For example, the third pivot axis and the first pivot axis run parallel to one another. The third pivot axis preferably runs obliquely or perpendicular to the second pivot axis.

In a further embodiment, it is provided that the second air-guiding element has at least one second holding region spaced apart from the holding area, via which the second air-guiding element is held in the line element or in the air vent so as to be pivotable relative to the wall, in particular about a fourth pivot axis. In other words, the second air guide element is pivotably mounted on the second holding area or via the second holding area in the line element. Again in other words, the second holding region of the second air guide element, in particular about the fourth pivot axis, is held or mounted in the line element or in the air vent so that it can be pivoted relative to the wall. By pivoting the second holding area, the second air guiding element can be deformed, in particular in a targeted manner. As a result, the shape of the second air guiding element can be adjusted, in particular in a targeted manner, as required.

For example, the first and/or the third pivot axes run parallel to the fourth pivot axis. The fourth pivot axis preferably runs obliquely or perpendicular to the second pivot axis. Preferably the third Pivot axis spaced from the fourth pivot axis.

It is preferably provided that the second holding area is arranged in the area of the outlet opening, in particular at the outlet opening or in the outlet opening. For example, the holding area is an end area of the second air guide element, in particular referred to as a second end area. Thus, the second air guide element can, for example, be held at one end on the air guide device and, via the second holding region, at the other end on a further component of the air vent that is different from the air guide device. The further component can be understood in particular as a holding element, which can be referred to, for example, as a fixed element.

In a further embodiment, it is provided that the second air guide element is held or mounted in a translationally movable manner in the line element or in the air vent, in particular via the holding area, relative to the wall, in particular relative to the air guide device. In other words, the holding area is held or mounted in the line element in a translationally movable manner relative to the wall, in particular to the air guiding device and/or the second holding area. This means that the holding area is translationally movable relative to the wall, in particular relative to the air guiding device, for example to the wall area. As a result, an expansion of the second air-guiding element, referred to in particular as material expansion, can be compensated for when the second air-guiding element is deformed, in particular when it is bent. This allows, for example, a mechanical load on the second air guide element to be kept particularly low. For example, the holding area is displaceable in the flow direction of the air flowing through the line element, in particular in the flow direction of the air flowing through the outlet opening, that is in the air outlet direction, relative to the wall, in particular relative to the air guide device.

Alternatively or additionally, it can be provided that the air guiding device can be pivoted relative to the wall either about the first pivot axis or about a further pivot axis that is different from the first pivot axis, in particular different from the second and third pivot axes. In other words, the air guide device is held in the line element via a holding device that can be adjusted or switched between two states, wherein in a first of the states the air guide device can be pivoted about the first pivot axis relative to the wall and in the second of the states the air guide device can be pivoted about the further one Pivot axis can be pivoted relative to the wall. This allows the expansion of the second air guide element to be compensated for, which can be referred to in particular as length compensation. In other words, the length compensation of the second air guide element can be effected or compensated for by means of an eccentric pivoting movement.

Preferably, it is provided that the air guiding device does not pivot about the first pivot axis in the second state. Preferably, it is provided that the air guiding device does not pivot about the further pivot axis in the first state. In other words, in the first state, the air guiding device is pivotable in relation to the first pivot axis and the further pivot axis exclusively about the first pivot axis relative to the wall and in the second state the air guiding device is pivotable in relation to the first pivot axis and the further pivot axis exclusively about the further pivot axis can be pivoted relative to the wall.

For example, the air vent can have a plurality of second air guide elements formed from the flexible material. This means that several flexible air guide elements can be used in the air vent.

Further advantages, features and details of the invention result from the following description of preferred exemplary embodiments and from the drawings. The features and combinations of features mentioned above in the description as well as the features and combinations of features mentioned below in the description of the figures and/or shown in the figures alone can be used not only in the combination specified in each case, but also in other combinations or on their own, without the scope of to abandon invention.

• 1 eine schematische Teilschnittansicht eines erfindungsgemäßen Luftausströmers; und
• 2 eine schematische Teilschnittansicht eines erfindungsgemäßen Luftausströmers gemäß einer weiteren Ausführungsform mit einer Halteeinrichtung, welche sich in einem ersten Zustand befindet; und
• 3 eine schematische Teilschnittansicht eines erfindungsgemäßen Luftausströmers gemäß einer weiteren Ausführungsform mit einer Halteeinrichtung, welche sich in einem zweiten Zustand befindet.

Show:

• 1 a schematic partial sectional view of an air vent according to the invention; and
• 2 a schematic partial sectional view of an air vent according to the invention according to a further embodiment with a holding device, which is in a first state; and
• 3 a schematic partial sectional view of an air vent according to the invention according to a further embodiment a holding device which is in a second state.

In the figures, identical or functionally identical elements are provided with the same reference numerals.

1 shows a schematic partial sectional view of an air vent 10 for a ventilation device 12 for a motor vehicle. The air vent 10 has a line element 14 through which air can flow. The air vent 10 has an outlet opening 16 through which air can flow, through which the air flowing through the line element 14 can flow out of the line element 14 and be introduced into an interior 18 of the motor vehicle. The outflow of the air flowing through the line element 14 via the outlet opening 16 or the introduction of the air flowing through the line element 14 via the outlet opening 16 is in 1 illustrated by arrows 20. The outlet opening 16 can be referred to in particular as an air outlet.

In the in 1 In the exemplary embodiment shown, the air vent 10 has an inlet opening 22 through which air can flow, via which the air can be introduced into the line element 14. The introduction of air via the inlet opening 22 into the line element 14 is illustrated by arrows 24. The inlet opening 22 can in particular be referred to as an air inlet. The inlet opening 22 is arranged upstream of the outlet opening 16 in relation to a flow direction of the air flowing through the line element 14. The line element 14 is at least partially delimited by a wall 26 of the air vent 10. The wall 26 can be understood in particular as a housing element or a housing. For example, the wall 26 delimits the line element 14 at least partially, in particular completely, in the radial direction of the line element 14. For example, the wall 26 surrounds the line element 14 in the circumferential direction of the line element 14 at least partially, in particular completely.

The air vent 10 has an air guiding device 30 which has at least one air guiding element 28, in particular through which air can flow, and which can in particular be referred to as a guiding body. The air guide device 30 has, for example, a base body 31, in particular formed separately from the air guide element 28. For example, the air guiding element 28 is held at least indirectly, in particular directly, on the base body 31.

The air guide device 30 is arranged in the line element 14 so as to be pivotable about a pivot axis 32, in particular referred to as the first pivot axis 32, whereby the air guide element 28, referred to in particular as the first air guide element 28, is caused by the pivoting of the air guide device 30 relative to the wall 26 delimiting the line element 14 can be pivoted about the first pivot axis 32. The pivoting of the air guide device 30, in particular the first air guide element 28, about the first pivot axis 32 is in 1 illustrated by an arrow 34. For example, in the installed position of the air vent 10 or the ventilation device 12 in the motor vehicle, the first pivot axis 32 runs parallel to a transverse vehicle direction 36 of the motor vehicle. The first air guide element 28 is preferably lamellar or designed as a lamella.

The air vent 10 has at least one second air guide element 40 made of a flexible material 38, in particular separately from the air guide device 30, which can be specifically deformed for, in particular targeted, redirection of the air flowing through the line element 14. Preferably, the air flowing through the line element 14 can be deflected or deflected by means of the second air guide element 40 in a direction that runs obliquely or perpendicular to the first pivot axis 32.

For example, the second air guide element 40 is arranged centrally in the line element 14, in particular in relation to a direction perpendicular to a main extension direction of the second air guide element 40. Therefore, the second air guide element 40 can be referred to in particular as a flexible center slat. For example, the second air guide element 40 is mounted between the air guide device 30 and the wall 26 or the housing.

In order to be able to flow air through the air vent 10, in particular the line element 14, in a particularly advantageous manner, it is provided that the air vent 10 has a, in particular mechanical and/or electrical, coupling device 41, by means of which the air guide device which can be pivoted about the first pivot axis 32 30 is coupled to the second air guide element 40, in particular directly. By pivoting the air guide device 30 about the first pivot axis 32, the second air guide element 40 is deformed, which in particular allows the air flowing through the line element 14 to be redirected. The coupling device 41 can be understood in particular as a coupling kinematics, by means of which the air guiding device 30 and the second air guiding element 40 can be deformed or moved, in particular controllable, in particular manually or actuatorically. are. For example, an electric machine is provided, by means of which the air guiding device 30 can be pivoted about the second pivot axis 32.

It is preferably provided that the first air guide element 28 can be pivoted relative to the wall 26, in particular relative to the second air guide element 40, about a second pivot axis 42 which runs obliquely or perpendicularly to the first pivot axis 32. The first pivot axis 32 and the second pivot axis 42 preferably intersect. For example, in the installed position of the air vent 10 or the ventilation device 12 in the motor vehicle, the second pivot axis 42 runs parallel to a vehicle vertical direction 44 of the motor vehicle. Therefore, the first air guide element 28 can be referred to in particular as a vertical slat or the first air guide element 28 can comprise vertical slats. By pivoting the first air guide element 28 about the second pivot axis 42, the air flowing through the line element 14 can be deflected or redirected in a direction perpendicular to the second pivot axis 42, preferably parallel to the first pivot axis 32, for example in the vehicle transverse direction 36 of the motor vehicle. It is preferably provided that an angle 46, at which or at which the first and second pivot axes 32, 42 extend relative to one another, is constant when pivoting the air guiding device 30.

In 1 In addition to the vehicle transverse direction 36 and the vehicle vertical direction 44, a vehicle longitudinal direction 45 of the motor vehicle is outlined.

In a further embodiment, it is provided that the air vent 10 has at least one third air-guiding element 48, which is formed separately from the first air-guiding element 28 and the second air-guiding element 40, on which the first air-guiding element 28 is relative to the third air-guiding element 48 about the second pivot axis 42, in particular is mounted pivotably or rotatably relative to the wall 26 and/or relative to the second air guide element 40.

In the in 1 In the embodiment shown, it is provided that an axial direction 50 of the line element 14 runs in a first direction 54 in a first length region 52 of the line element 14, which is arranged upstream of the air guide device 30, and in a second length region 56 of the air guide element 40, which is arranged downstream of the air guide device 30 runs in a second direction 58, the directions 54, 58 extending at a maximum angle 60 of 45 degrees, for example 20 degrees, to one another. For example, it can be provided that the wall 26 extends in the first length region 52 in the first direction 54 and in the second length region 56 extends in the second direction 58. Thus, a curvature of the air vent 10, in particular the wall 26, can be kept particularly low.

In a further embodiment, it is provided that the second air guide element 40 is held on the air guide device 30, in particular via the coupling device 41, preferably at one end. For example, the air guiding device 30, in particular the base body 31, has a wall region 31a on which the second air guiding element 40 is held, in particular directly. It is preferably provided that the first pivot axis 32 and/or the second pivot axis 42 runs through the second air guide element 40.

In a further embodiment, it is provided that the second air guiding element 40 has a holding region 62, designated in particular as a first holding region 62, over which the second air guiding element 40, in particular on the air guiding device 30, for example on the wall region 31a, can be pivoted relative to the wall 26 in the Line element 14 is held.

In a further embodiment, it is provided that the second air guiding element 40 has a second holding region 64 which is spaced apart from the first holding region 62 and arranged in the region of the outlet opening 16, via which the second air guiding element 40 is held in the line element 14 so as to be pivotable relative to the wall 26 is stored. For example, the air vent 10 has a holding element 66, referred to in particular as a fixed element, on which the second holding region 64 of the second air guide element is held pivotably, in particular directly, relative to the wall 26. For example, the holding element 66 can be used as an operating element for deforming the second air guide element 40. This means that the holding element 66 can be driven, for example manually or by means of an actuator or by means of an electrical machine, whereby the holding element 66 can be pivoted or rotated. This allows the deformation, in particular bending, of the second air guide element 40 to be effected. Thus, a moment, in particular a bending moment, can be introduced into the second air guide element by rotation on the holding element 66 and/or on the air guide device 30, whereby the second air guide element 40 can be deformed. The holding element 66 can be referred to in particular as an operating element or as an adjusting element.

For example, the holding element 66 is coupled or can be coupled kinematically, in particular mechanically and/or electrically, to the air guiding device 30, in particular to the base body 31 or the wall region 31a, in particular via the coupling device 41. A coupling kinematics can thus be provided for coupling the holding element 66 to the air guiding device 30, wherein the coupling device can, for example, comprise at least one toothed segment. In particular, it can be provided that when the air guiding device 30 is pivoted about the first pivot axis 32 in one direction, the holding element 66 is accompanied by pivoting in a further direction running opposite to the direction. In other words, the holding areas 62, 64 are each pivoted in opposite directions to one another when pivoting.

For example, the holding element 66 is designed as an air-guiding element, which can be referred to in particular as a fourth air-guiding element. This means that the holding element 66 has at least one area, in particular a surface area, intended for guiding, in particular for deflecting, the air flowing through the line element 14. As a result, a flow direction of the air flowing through the line element 14 in the area of the outlet opening 16 can be particularly optimized, in particular stabilized.

In a further embodiment, it is provided that the second air guide element 40, in particular via the first holding region 62, is held or mounted in a translationally movable manner relative to the wall 26 in the line element 14, in particular on the air guide device 30. This makes it possible to compensate for the length of the second air guide element 40 when it is deformed.

2 and 3 shows the air vent 10 in a respective schematic partial sectional view according to a further embodiment, in which the air guiding device 30 optionally about the first pivot axis 32 or about a further pivot axis 68 that is different from the first pivot axis 32, in particular spaced from the first pivot axis 32, relative to the wall 26 is pivotable. This allows the length compensation of the second air guide element 40 to be effected. The further pivot axis 68 and the first pivot axis 32 preferably run parallel to one another. The second pivot axis 42 preferably runs through the first pivot axis 32 and/or the further pivot axis 68.

For example, the air vent 10 has a holding device 70, via which the air guiding device 30, in particular pivotable relative to the wall 26, is held in the line element 14, in particular at least indirectly or directly on the wall 26. For example, the holding device 70 has a first holding part 72 and a second holding part 74 spaced apart from the first holding part 72. The respective holding part 72, 74 can be coupled to the air guiding device 30, in particular with the base body 31, and can be decoupled from the air guiding device 30, in particular from the base body 31. For example, the holding device 70 can be adjusted or switched between two states. In a first of the states, the first holding part 72 is coupled to the air guiding device 30, in particular to the base body 31, and the second holding part 74 is decoupled from the air guiding device 30. In the second of the states, the second holding part 74 is coupled to the air guiding device 30, in particular to the base body 31, and the first holding part 72 is decoupled from the air guiding device 30. In 2 the holding device 70 is in the first state. In the first state, the air guiding device 30 can be pivoted about the first pivot axis 32 relative to the wall 26, with the air guiding device 30 in particular not pivoting about the further pivot axis 68. In other words, the air guide device 30 can be pivoted about the first pivot axis 32 relative to the wall 26 when the first holding part 72 is coupled to the air guide device 30, in particular to the base body 31. In 3 holding device 70 is in the second state. In the second state, the air guiding device 30 can be pivoted about the further pivot axis 68 relative to the wall 26, with the air guiding device 30 in particular not pivoting about the first pivot axis 32. In other words, the air guide device 30 can be pivoted about the further pivot axis 68 relative to the wall 26 when the second holding part 74 is coupled to the air guide device 30, in particular the base body 31. The pivoting of the air guiding device 30, in particular the base body 31, about the further pivot axis 68 is in 3 illustrated by an arrow 76.

For example, the air guide device 30, in particular the base body 31, is coupled or connected via a spring element 78, in particular directly, to a component 80 of the air vent 10, which is designed separately from the air guide device 30. The component 80 can be part of the wall 26 or can be formed separately from the wall 26. For example, the component 80 is at least indirectly connected to the wall 26.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102019003570 A1 [0002]

Claims (10)

Air vent (10) for a ventilation device (12) for a motor vehicle, with a line element (14) through which air can flow, with an outlet opening (16) through which air can flow, through which the air flowing through the line element (14) comes out of the line element (14). can be flowed out and introduced into an interior (18) of the motor vehicle, with an air guiding device (30) having at least one air guiding element (28), which is arranged in the line element (14) so as to be pivotable about a pivot axis (32), whereby the air guiding element (28) by pivoting the air guide device (30) relative to a wall (26) delimiting the line element (14) about the pivot axis (32), and with at least one second air guide element (40) formed from a flexible material (38), which to deflect the air flowing through the line element (14), characterized in that the air vent (10) has a coupling device (41), by means of which the air guide device (30), which can be pivoted about the pivot axis (32), is connected to the second air guide element (40 ) is coupled, and that the second air guide element (40) is deformed by pivoting the air guide device (30) about the pivot axis (32). Air vent (10). Claim 1 , characterized in that the air guide element (28) can be pivoted relative to the wall (26) about a second pivot axis (42) which runs obliquely or perpendicular to the pivot axis (32). Air vent (10). Claim 2 , characterized in that an angle (46) at which the pivot axes (32, 42) extend to one another is constant when the air guiding device (30) is pivoted. Air vent (10). Claim 2 or 3 , characterized in that the air guide device (30) has at least one third air guide element (48) which is formed separately from the air guide element (28), on which the air guide element (28) relative to the third air guide element (48) about the second pivot axis (42) is pivotably mounted. Air vent (10) according to one of the preceding claims, characterized in that an axial direction (50) of the line element (14) in a first length region (52) of the air guide element (28) arranged upstream of the air guide device (30) in a first direction (54 ) runs and runs in a second direction (58) in a second length region (56) of the air guide element (28) arranged downstream of the air guide device (30), the directions (54, 58) being at a maximum angle (60) of 45 ° run to each other. Air vent (10) according to one of the preceding claims, characterized in that the second air guide element (40) is held on the air guide device (30). Air vent (10) according to one of the preceding claims, characterized in that the pivot axis (32) runs through the second air guide element (40). Air vent (10) according to one of the preceding claims, characterized in that the second air guide element (40) has a holding area (62) via which the second air guide element (40) is held in the line element (14) so that it can pivot relative to the wall (26). is. Air vent (10). Claim 8 , characterized in that the second air guiding element (40) has a second holding region (64) which is spaced apart from the holding region (62) and arranged in the region of the outlet opening (16), via which the second air guiding element (40) is relative to the wall (26 ) is pivotably held in the line element (14). Air vent (10) according to one of the preceding claims, characterized in that • the air guide element (28) is held in the line element (14) in a translationally movable manner relative to the wall (26) and / or • the air guide device (30) optionally about the pivot axis (32) or can be pivoted relative to the wall (26) about a further pivot axis (68) that is different from the pivot axis (32).

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