DE102016005000A1 - Outlets for a motor vehicle and associated motor vehicle - Google Patents

Abstract

Outlet (1) for a motor vehicle with a Ausströmergehäuse (2), at least one inlet (3) and at least one outlet opening (4) for an air flow (5) and at least one air guide to the emerging from the outlet opening (4) air flow ( 5), wherein the air guiding device comprises a folding structure (6) with a plurality of air outlet openings (7, 9) for adjusting an outlet direction of the air flow (5) and the outlet direction of the air flow (5) emerging from the outlet opening (4) by folding the folding structure (6) is changeable.

Description

The invention relates to a vent for a motor vehicle with a Ausströmergehäuse, at least one inlet and at least one outlet opening for an air flow and at least one air guide to guide the emerging from the outlet opening air flow. In addition, the invention relates to a motor vehicle.

Air vents usually designate outlets of a ventilation device of a motor vehicle and are usually used to direct an air flow in the interior of a motor vehicle to allow targeted ventilation or air conditioning of the vehicle interior. Usually, several outlets are arranged at different locations in the motor vehicle in order to distribute the air flow as evenly as possible in the interior of the motor vehicle.

Typically, the vents are arranged in the dashboard, in the center console, near the side windows and / or in the footwell of the vehicle interior. While in inaccessible areas, such. As in the footwell of the motor vehicle, usually not adjustable outlets are used, which deflect a guided through them airflow always in the same direction, are in accessible to a vehicle occupant positions such. B. on the dashboard, usually adjustable outlets arranged.

Typically, adjustable vents can be completely or partially closed by a flap to adjust the volume of airflow. Thus, the air flow emerging from the vent can be throttled.

In addition, adjustable vents may control the direction of airflow and may be actuated by a user, whereafter the airflow exiting the vents may be deflected in different directions by adjusting an air directing device. By means of an adjustable outflow device, the direction in which the airflow exits the outflow can thus be adjusted according to the needs of the occupants in order to enable individual air conditioning of the motor vehicle interior.

In order that the air flow can be deflected in different directions by means of an adjustable outflow, lamellas are usually used as an air guiding device in order to adjust the direction of the exiting air flow. These fins are usually arranged in the front region of an outflow in front of the outlet opening, whereby on the one hand the Längenmaßkette is adversely affected by the louver and also the shape of a Ausströmers is limited.

The object of the invention is therefore to provide an air vent with an improved air guide.

In order to achieve this object, according to the invention, the air guiding device comprises a folding structure with a plurality of air outlet openings for setting an outlet direction of the air flow and the outlet direction of the air flow emerging from the outlet opening can be changed by folding the folding structure.

An air flow that may be generated by a fan may be routed through the vent such that it must overcome the air deflector and thus the pleated structure of the vent before it can exit the exit port of the vent housing. When at least part of the air outlet openings of the folding structure are in the open position, the air flow can flow through these air outlet openings. By folding the folding structure, the air outlet openings can be changed such that an outlet direction of the air flow through the air guiding device or the folding structure is adjustable. According to the invention, the cross-sectional area of the folding structure can correspond to the cross-sectional area of the interior of the air-flow housing, so that the entire air flow flowing through the outlet must flow through the air outlet openings of the air-guiding device in order to pass through the outlet opening of the outlet housing, for example into an interior of a motor vehicle. That is, an outer edge of the folding structure may be airtightly connected to the Ausströmergehäuse. The air outlet openings of the folding structure may be distributed at different or equal intervals over the entire cross-sectional area of the folding structure. In addition, the folding structure can be arranged in or on the Ausströmergehäuse, thereby creating new freedom of design with respect to the design of a Ausströmers invention, and by an arrangement of the folding structure in the interior of the Ausströmergehäuses also has the advantage that a smaller depth compared to conventional vents, the for adjusting an outlet direction of the air flow on the Ausströmergehäuse arranged, movable slats resort, can be achieved.

According to the invention, at least a part of the air outlet openings can be moved by folding the folding structure between a closed position and an open position, whereby an outlet direction of the air stream emerging from the outlet opening can be adjusted. A distraction of the air flow can According to the invention take place in the horizontal, vertical and / or diagonal direction relative to the Ausströmergehäuse. On the side opposite the outlet opening of the outflow side, at which the air flow is guided through the inlet opening into the outflow, there is an undisturbed flow of the air flow. The air flow extends in the longitudinal direction of the Ausströmergehäuses in the direction of the louver. Thus, due to the flow against at least one closed air outlet opening, an air accumulation respectively an air cushion is produced directly in front of the closed air outlet opening in the interior of the outlet housing. This results in a leading along the air cushion laminar deflection of the continuously guided through the Ausströmergehäuse air flow in the direction of the open air outlet. Consequently, the airflow overcomes the louver and undergoes a certain deflection, after which the airflow exits the outlet opening of the launcher housing with a discharge direction created by this deflection. In this case, the folding structure is foldable such that its effective in the air flow direction cross-sectional area is variable, which increases by closing the air outlet openings and reduced by opening.

It is also within the scope of the invention that by folding the folding structure different combinations of located in the open position, closed position or an intermediate position air outlet openings are adjustable and thereby different outlet directions of the air flow can be adjusted. According to a conceivable embodiment, it is within the scope of the invention, for example, that an outlet direction of the air flow that is parallel to the longitudinal direction of the outlet housing can be adjusted by all air outlet openings being at least partially open. In addition, a discharge direction of the airflow directed diagonally downwards relative to the exhaust housing may be adjustable by closing a part of the air outlet openings in an upper area of the folding structure, wherein the outlet direction of the airflow relative to the outlet housing may be adjustable diagonally upwards by closing a part of the airflow Air outlet openings are closed in a lower region of the folding structure.

According to the invention, by folding the folding structure, part of the air outlet openings can be moved from the closed to the open position and another part of the air outlet openings can be moved simultaneously from the open to the closed position. For example, the air outlet openings of the folding structure can be distributed in such a way that all air outlet openings or a part of the air outlet openings between the closed and open positions can be moved by a folding of the folding structure. According to the invention, a user can effect a folding of the folding structure at at least one point of application, so that an adjustment of the outlet direction of the air flow can be individually adapted.

In addition, it may be provided according to the invention that the air guide comprises an air guide element which is arranged in or on the vent, wherein the outlet direction of the exiting from the outlet opening and already guided by the folding structure air flow is adjustable by the air guide, wherein the exit velocity distribution through the folding structure an exit surface of the folding structure is adjustable. For example, a corresponding air guide element may be formed by a specific shape of the Ausströmergehäuses, whereby the exiting air flow and the outlet direction of the air flow is adjustable. The air guide element may be configured such that a part of the air flow emerging through an upper region of the outlet opening is deflected downward relative to the outlet housing and a part of the air flow emerging through a lower region of the outlet opening is deflected upwards relative to the outlet housing. As a result, the entire airflow guided through the vent can be deflected upwards or downwards by closing all the air outlet openings in the upper region or in the lower region by means of the folding structure. However, the air guide can also be set up the other way round. Furthermore, the air guide element may also comprise non-adjustable blades.

According to the invention it can be provided that the folding structure is arranged in the region of the outlet opening in or on the Auströmergehäuse. As a result, an optical effect of a completely closed outflow can be generated when all the air outlet openings of the folding structure are in their closed position and the folding structure is arranged visibly on the outlet housing in the region of the outlet opening. By arranging the folding structure in the Ausströmergehäuse particular small depth of the vent can be achieved. The inventive possibility to arrange the folding structure both in and on the Ausströmergehäuse, creating new freedom of design with respect to the entire Ausströmers. Accordingly, by an arrangement of the folding structure in the interior of the Ausströmergehäuses a privacy-protected arrangement can be achieved.

According to the invention, it can be provided that the folding structure has a folding pattern of the Miura fold. The Miura folding is known, inter alia, from the article "Miura folding: Applying origami to space exploration" from other technical fields ( Y. Nishiyama: Miura folding: Applying origami to space exploration, Article in: International Journal of Pure and Applied Mathematics, Vol. 2 2012, 269-279 .). The folding structure can be in subdividing a plurality of segments of the folding pattern, wherein the cross-sectional area of the folded-up overall folding structure almost corresponds to the cross-sectional area of one of the individual segments. The thickness of the folded Gesamtfaltstruktur limited to the thickness of the folded material, the thickness is not affected by the fold edges or the folding pattern.

The folding structure with the folding pattern after the Miura folding can unfold by applying a tensile force to each of two opposite outer edges of the folding structure. Alternatively, an outer edge of the folding structure may be fixed in position, while an opposite outer edge of the folding structure is movable away from the fixed outer edge of the folding structure, whereby the folding structure is foldable and movable towards the fixed outer edge. However, it is also possible that all outer edges of the folding structure are fixed in place and a folding of the folding structure by moving at least one folding edge of the folding pattern is feasible.

By the folding structure with the folding pattern of the Miura folding, for example, a space-optimized vent can be constructed, since the outlet direction of the air flow is not changed by additional, arranged on the Ausströmergehäuse slats, but takes place through the air outlet openings of the folding structure. The Miura fold pattern allows the air vents to be efficiently moved between closed and open positions by folding.

It is also within the scope of the invention that the folding structure is mechanically coupled by means of an adjusting device and folding of the adjusting device by a user at a point of application of the adjusting device allows a folding of the folding structure to be carried out. For example, a lever or a slider can be arranged on the outflow, wherein the adjustment device serves a user in that the user can set the desired setting of the outflow or the air guiding device at a point of application of the adjustment device. The adjusting device designed as a lever may have a lever arm which is movable between a position facing towards an upper edge of the outflow device and a position directed toward a lower side of the outflow device. If the lever is moved from one to the other position, for example from top to bottom, this movement of the lever can be transmitted by the mechanical movement coupling with the adjusting device such that the air outlet openings of the folding structure can be moved from a closed to an open position or vice versa are.

According to the invention it can be provided that a folding of the folding structure can be carried out by the folding structure is rotatable and / or at least one end of the folding structure and / or a folding edge is vertically, horizontally and / or diagonally movable. For example, a point of application can be arranged at one end of the folding structure or at an edge of an air outlet opening of the folding structure or at any point between the air outlet openings of the folding structure. At this point of application, a force can be exerted on the folding structure, so that the folding structure is at least partially vertically, horizontally and / or diagonally movable as part of a folding. If a force is exerted on the folding structure at the at least one point of application of the folding structure, this causes a deformation of the folding structure such that at least part of the air outlet openings are moved between the closing and the open positions. In addition, it can be provided that the folding structure is rotatable about an axis such that a folding of the folding structure can be effected by such a rotational movement and thereby at least a part of the air outlet openings between the closing and the open position can also be moved. Thus, the shape of the folding structure is also deformable by a rotation such that an air flow guided through the air guiding device can thereby be changed into a specific outlet direction.

In the context of the invention it can be provided that the folding structure consists of metal or plastic. However, the folding structure can in principle also consist of pulp or a composite material. In addition, the folding structure may have a square, annular, circular or polygonal cross-section, wherein it is particularly preferred that the area of the cross-section of the folding structure corresponds to the cross-sectional area of the interior of the Ausströmergehäuses, so that the entire guided through the vent airflow has to overcome the louver, to escape from the outlet of the vents, since all outer edges of the folding structure are airtight connected to the Ausströmergehäuse.

In addition, the invention relates to a motor vehicle with at least one vent according to the invention. All versions with respect to the vent continue to apply analogously to the motor vehicle.

Further advantages and details of the invention will be explained below with reference to an embodiment with reference to the drawings. The drawings are schematic representations and show:

1 a vent according to the invention in a side sectional view; and

2 another sectional side view of the in 1 shown vane.

1 shows a vent 1 in a cut side view. The vent 1 includes a Ausströmergehäuse 2 that has an entrance opening 3 and one of the entrance opening 3 opposite outlet opening 4 having. An airflow 5 , which is generated by a blower, passes through the inlet opening 3 in the Ausströmergehäuse 2 of the outlet 1 and gets through the vent housing 2 up to the exit opening 4 the Ausströmergehäuses 2 guided. In the area of the outlet opening 4 there is a louver in the form of a folding structure 6 , reducing the airflow 5 the folding structure 6 must overcome to get out of the outlet 4 the Ausströmergehäuses 2 from the vent 1 to get. The folding structure 6 has a total of three lower air outlet openings 7 on that in a lower area 8th the Ausströmergehäuses 2 are arranged. In addition, the folding structure 6 a total of three upper air vents 9 on that in an upper area 10 the Ausströmergehäuses 2 are arranged. The lower area 8th is optically from the upper area by the dashed line 10 the Ausströmergehäuses 2 separated. An adjusting device 11 , which represents a point of attack for a user, is with the folding structure 6 mechanically motion coupled and so on the folding structure 6 arranged that the adjusting device 11 about the dimensions of the vent housing 2 protrudes, whereby a particularly advantageous operating concept is implemented, since the adjustment 11 is easily accessible to a user. The folding structure 6 is in a position where both the lower air vents 7 as well as the upper air outlet openings 9 Although they are open, they are not in their open position but in their intermediate position. The through the Ausströmergehäuse 2 flowing airflow 5 represented by the parallel arrows in the direction of the outlet opening 4 the Ausströmergehäuses 2 , can thus through the Ausströmergehäuse 2 and both through the lower air outlet openings 7 as well as through the upper air outlet openings 9 the folding structure 6 flow and thus out of the outlet opening 4 the Ausströmergehäuses 2 escape. Because both the lower air vents 7 as well as the upper air outlet openings 9 are evenly opened, there is no turbulence or diffuse distribution of the air flow 5 , so that this in the longitudinal direction of the Ausströmergehäuses 2 from the outlet 4 the Ausströmergehäuses 2 exit. Thus, under the 1 shown representation no distraction of the air flow 5 respectively change of its outlet direction in relation to an original flow direction of the air flow 5 ,

In 2 is another sectional side view of the vent 1 shown. In the context of the 2 shown representation of the vent 1 is the adjustment compared to the representation of 1 adjusted so that the lower area 8th the Ausströmergehäuses 2 is much larger than the upper area 10 the Ausströmergehäuses 2 , wherein the lower portion of the Ausströmergehäuses 2 by the dashed line from the upper area 10 the Ausströmergehäuses 2 is disconnected. As part of the 2 is clearly shown that by adjusting the adjustment 11 For example, as caused by a user, the upper air vents 9 are almost closed and the lower air outlet 7 are significantly further open compared to the position of the folding structure 6 as they are in 1 is shown. On the outlet 4 opposite side of the vent 1 at the airflow 5 in the vent 1 is guided, there is an undisturbed flow of the air flow, which by the three parallel arrows in the direction of the outlet opening 4 the Ausströmergehäuses 2 is shown. The air storm 5 runs parallel to the longitudinal direction of the Ausströmergehäuses 2 and hits in the area of the outlet opening 4 on the folding structure 6 , As in 2 shown are the upper air vents 9 by adjusting the adjustment 11 locked. Thus arises due to the flow of the closed upper air outlet 9 an airlock in the form of an air cushion 12 immediately in front of the closed upper air outlet openings 9 in the interior of the Ausströmergehäuses 2 , This results in a laminar deflection of the through the Ausströmergehäuse 2 guided airflow 5 along the air cushion 12 in the direction of the open lower air outlet openings 7 , whereby a relative to the Ausströmergehäuse 2 diagonally downward direction of discharge of the air flow 5 is set because of the air cushion 12 deflected airflow 5 diagonally through the open lower air outlet openings 7 from the outlet 4 the Ausströmergehäuses 2 exit.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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 non-patent literature

• Y. Nishiyama: Miura folding: Applying origami to space exploration, Article in: International Journal of Pure and Applied Mathematics, Vol. 2 2012, 269-279 [0015]

Claims (11)

Vents ( 1 ) for a motor vehicle with a Ausströmergehäuse ( 2 ), at least one entry ( 3 ) and at least one exit opening ( 4 ) for a flow of air ( 5 ) and at least one air guiding device in order to remove the air from the outlet opening ( 4 ) exiting air flow ( 5 ), characterized in that the air guiding device has a folding structure ( 6 ) with a plurality of air outlet openings ( 7 . 9 ) for adjusting an outlet direction of the air flow ( 5 ) and the outlet direction of the outlet opening ( 4 ) exiting air stream ( 5 ) by folding the folding structure ( 6 ) is changeable. Outlet according to claim 1, characterized in that at least a part of the air outlet openings ( 7 . 9 ) by folding the folding structure ( 6 ) are movable between a closed and an open position, whereby an outlet direction of the out of the outlet opening ( 4 ) exiting air stream ( 5 ) is adjustable. Outlet according to claim 1 or 2, characterized in that by folding the folding structure ( 6 ) different combinations of located in the open position, closed position or an intermediate position air outlet openings ( 7 . 9 ) are adjustable and thereby different outlet directions of the air flow ( 5 ) are adjustable. Outlet according to one of the preceding claims, characterized in that by a folding of the folding structure ( 6 ) a part of the air outlet openings ( 7 . 9 ) from the closed to the open position and another part of the air outlet openings ( 7 . 9 ) are simultaneously movable from the open to the closed position. Outlet valve according to one of the preceding claims, characterized in that the air guiding device comprises an air guiding element which is in or on the outflow ( 1 ) is arranged, wherein by the air guide the exit direction of the out of the outlet opening ( 4 ) and already through the folding structure ( 6 ) guided air flow ( 5 ) is adjustable, whereby by the folding structure ( 6 ) the exit velocity distribution over an exit surface of the folding structure ( 6 ) is adjustable. Outlet according to one of the preceding claims, characterized in that the folding structure ( 6 ) in the region of the outlet opening ( 4 ) in or on the Ausströmergehäuse ( 2 ) is arranged. Outlet according to one of the preceding claims, characterized in that the folding structure ( 6 ) has a fold pattern of the Miura fold. Outlet according to one of the preceding claims, characterized in that the folding structure ( 6 ) with an adjusting device ( 11 ) is mechanically coupled in motion and by linear displacement of the adjusting device ( 11 ) by a user at a point of application of the adjusting a folding of the folding structure ( 6 ) is feasible. Outlet according to one of the preceding claims, characterized in that a folding of the folding structure ( 6 ) is feasible by the folding structure ( 6 ) is rotatable and / or at least one end of the folding structure ( 6 ) and / or a folding edge is vertically, horizontally and / or diagonally movable. Outlet according to one of the preceding claims, characterized in that the folding structure ( 6 ) consists of metal or plastic. Motor vehicle with at least one vent ( 1 ) according to one of the preceding claims.

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