DE102007036532B4 - discharge means - Google Patents

Abstract

Outlet device, in particular for blowing air into vehicle interior, with a channel (1) for supplying air and an outlet opening (2), wherein in the channel (1) in the region of the outlet opening (2) arranged side by side slats (3) are provided, which about mutually parallel axes of rotation (4) are pivotable, wherein at least one of the lamellae (3 ', 3' ') is designed so that during pivoting of the lamellae (3) in a first pivoting direction (A) or second pivoting direction (B) a larger angle range passes through than the respective adjacent lamellae (3), characterized in that the lamellae (3, 3 ', 3' ') are designed so that the lamella (3', 3 '') in the respective pivoting direction (A, B) located wall (1 ', 1' ') of the channel (1) is closest, passes through the larger pivot angle, while the other lamellae pass through a smaller pivot angle in the same pivoting direction.

Description

The invention relates to outflow devices, in particular for the injection of air into the interior of motor vehicles according to the preamble of claim 1.

A generic device is z. B. off DE 10 2006 001 798 A1 known. The known device has lamellas or lamellae groups, which are arranged at the exit of an air duct. This arrangement is provided in order to achieve the largest possible solid angle for the air blown out. For this purpose, the slats or fin ribs are pivotally mounted and are moved asynchronously during pivoting.

From DE 43 15 220 C1 known device provides an array of parallel slats in a fed with an air flow channel, which can be adjusted to vary the outflow direction via a slider with respect to their assumed to the longitudinal extent of the channel angle. In the edge region, that is to say in the area of the lamella adjacent to the side wall of the channel, there is a deflection effect of the lamellae generated partial air flows, so that the set by the slats Ausströmwinkel changed by deflections of partial air flows and a position of the slats corresponding discharge angle actually not is reached. This is due to the fact that the partial air flows in the region adjacent to the duct wall are deflected, inter alia, directly onto the duct wall and thus influence the remaining partial air flows in their discharge direction.

To remedy this, it is proposed in the cited document to form one of the slats in several parts, wherein the one part is retained during adjustment of the Lammellenwinkels by a stop, while the other is further pivoted with the other slats.

This solution is expensive, because the formation of such two-piece fins with respect to the production requires several steps and is also susceptible to wear, since additional joints are required. In addition, such a complex structure can not be produced in a molding process (2K process), but several operations are required, which also increases the cost of production.

In DE 37 19 835 A1 It is proposed to additionally connect the lamellar arrangement with a single lamella which keeps the air away from the wall of the duct.

This solution also requires several components and is therefore associated with increased manufacturing and installation costs.

Object of the present invention is therefore to provide an off strömeinrichtung of the type mentioned, which eliminates these disadvantages as far as possible.

This problem is solved by the features of claim 1. Advantageous embodiments can be found in the subclaims.

According to the invention, at least one of the lamellae of the lamellar arrangement, preferably the two outer lamellae closest to the wall of the channel, passes through a larger angular range during pivoting than the remaining lamellae. Preferably, the outer slats are guided over a pin in a slotted guide, which is provided on the coupling element which couples the entire slat arrangement. The slotted guide is preferably curved so that upon actuation of the coupling element and associated walking pivoting of the slats in the desired outflow direction one of the slats reaches the end region located in the outflow direction towards the associated wall of the channel and is employed so that a through the Channel-guided air flow in the region of this slat throttled or completely blocked. Thus, the air flow can no longer be deflected in the area of the wall and lead to a disturbance of the remaining partial air flows.

The invention will be explained in more detail below with reference to an embodiment and the figures.

1 FIG. 2 shows a perspective view of the outflow device according to the invention, FIG.

2A to 2C FIGS. 5 and 5 show plan views of the slats coupled in accordance with the invention in different slat settings,

3A to 3C - show the views of the 2A to 2C corresponding sections through the discharge device according to the invention with different blade settings,

4 - Shows a perspective view of the invention coupled to the slat arrangement.

The outflow device has, as in 1 shown a channel formed by a housing 1 on, through which air is fed towards x and through a set of fins 3 to an outflow opening 2 is directed. The slats 3 are about a slider 6 pivoted and can be placed in the xy plane between the walls 1' and 1'' of the canal 1 be pivoted about mutually parallel pivot axes.

In the 2A to 2C (or in the corresponding 3A to 3C ) different lamellar positions are shown. In 2A ( 3A ) are the slats 3 pivoted in a first direction A, in the 2 B ( 3B ) are the slats 3 arranged in a neutral position parallel to the air supply direction x and in 2C ( 3C ) are the slats 3 pivoted in one of the first pivot direction A opposite second pivot direction B. The slats 3 . 3 ' . 3 '' are each with each other via the coupling element 5 coupled. About the slider 6 can be one of the slats 3 be moved so that these around a rotation axis 4 is pivoted and due to the coupling via the coupling element 5 the other slats 3 . 3 ' . 3 '' be mitverschwenkt. The respective outer fins 3 ' . 3 '' are in contrast to the remaining slats 3 not over joints 3b rigidly on the coupling element 5 hinged, but grab on engagement elements 3a ' . 3a '' in serving as a guide slotted guides 5 ' . 5 '' , The engaging elements 3a ' . 3a '' are thus when pivoting the slats 3 respectively. 3 ' . 3 '' in the management facilities 5 ' . 5 '' movably guided. The management facilities 5 ' . 5 '' are as outward (ie to the wall of the channel 1 towards) concavely curved slide guides are formed, which extend from the coupling element substantially to the outlet opening. This is when pivoting the slats 3 . 3 ' . 3 '' achieved the following effect:
When swiveling the slats 3 . 3 ' . 3 '' in the direction of A (which is a movement of the slider across the outlet 2 contrary to the direction y) are all slats except for the most outward in the swing direction lamella 3 '' at the same angle around the axes 4 pivoted. Only the outer lamella 3 '' sets a greater swing angle, since no rigid linkage on the coupling element 5 present, but the engagement element 3a ' the leadership 5 '' in the direction of the outlet opening 2 goes through to the stop. The slat 3 '' thus blocks or throttles the incoming air flow, leaving in the area between the fins and the outlet near the wall 1'' (see. 3C ) no to the wall 1'' parallel air flow can occur. As a result, behind the lamellar arrangement no hindrances to the wall 1'' deflected airflows are made so that the airflow actually passes through the lamellae 3 taken direction. The slide tours 5 ' . 5 '' are preferably formed so that the respective other outer blade (in 2A the right lamella 3 ' ) behaves during pivoting as the other slats 3 , and unlike the slat 3 '' does not go through a larger swing angle. Preferably, therefore, only passes through the lamella, which lies in the pivoting direction wall 1' . 1'' is closest, a larger swing angle, while the other lamellae pass through the same, smaller pivot angle, which substantially corresponds to the desired air outlet angle.

Conversely, it is in the in the 2C respectively. 3C shown pivoting of the slats 3 . 3 ' . 3 '' in the direction B. When pivoting in direction B, only the lamella 3 ' pivoted by a larger angular range than that of the other slats 3 '' . 3 the case is. The mode of operation is analogous to the case of the pivoting in the direction A, so that a further description is dispensable.

As in 4 shown are the outer fins 3 ' . 3 '' preferred with a cut 3c ' . 3c '' provided so that the management facilities 5 ' . 5 '' having parts of the coupling element 5 when pivoting the slats can easily run along the respective slats.

The invention thus provides an effective solution to at the air outlet opening 2 to be able to set the desired outlet direction of the air flow without obstructions due to deflection effects.

Claims (7)

Outlet device, in particular for blowing air into vehicle interiors, with a channel ( 1 ) for supplying air and an outlet opening ( 2 ), whereas in the channel ( 1 ) in the region of the outlet opening ( 2 ) arranged side by side slats ( 3 ) are provided, which about parallel axes of rotation ( 4 ) are pivotable, wherein at least one of the slats ( 3 ' . 3 '' ) is designed so that when pivoting the slats ( 3 ) in a first pivoting direction (A) or second pivoting direction (B) passes through a larger angular range than the respectively adjacent lamellae ( 3 ), characterized in that the lamellae ( 3 . 3 ' . 3 '' ) are designed so that the lamella ( 3 ' . 3 '' ) of the in the respective pivoting direction (A, B) located wall ( 1' . 1'' ) of the channel ( 1 ) is closest, passes through the larger pivot angle, while the other lamellae pass through a smaller pivot angle in the same pivoting direction. Outflow device according to claim 1, characterized in that at least one of the slats ( 3 ' . 3 '' ) is designed so that when pivoting the slats ( 3 ) in the desired air outflow direction from the channel ( 1 ) on the slats air flow in the area of the lamella concerned ( 3 ' . 3 '' ) throttles or blocks. Outflow device according to claim 1 or 2, characterized in that the lamellae ( 3 ) by means of a coupling element ( 5 ) are coupled together, wherein the coupling element ( 5 ) at least one with the at least one blade ( 3 ' . 3 '' ) cooperating management facility ( 5 '; 5 '' ), with which the at least one lamella ( 3 ' . 3 '' ) is guided in such a way that upon actuation of the coupling element ( 5 ) compared to adjacent lamellae ( 3 ) passes through a larger swing angle. Outflow device according to claim 3, characterized in that it is in the guide device ( 5 '; 5 '' ) is a backdrop tour. Outflow device according to claim 4, characterized in that the slotted guide ( 5 '; 5 '' ) one to the nearest wall ( 1'; 1'' ) of the channel ( 1 ) has concavely curved portion. Outflow device according to claim 5, characterized in that the of the guide means ( 5 '; 5 '' ) guided lamellae ( 3 '; 3 '' ) with the respective management institution ( 5 '; 5 '' ) engaging element ( 3a '; 3a '' ) exhibit. Outflow device according to one of claims 3 to 6, characterized in that the respective two opposite sides of the channel ( 1 ) nearest slats ( 3 '; 3 '' ) with the respective management facilities ( 5 '; 5 '' ) of the coupling element ( 5 ) interact.

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