VENTILATION VALVE FOR A VEHICLE

Abstract

A ventilation valve for ventilating the interior of a vehicle includes a valve frame with at least one through opening, and also at least one ventilation flap which is mounted on the valve frame and is pivotable between a closed position and an open position, wherein the at least one ventilation flap closes the at least one through opening in the closed position and opens up the at least one through opening in the open position. A resetting feature is provided for pivoting the at least one ventilation flap back out of the open position into the closed position.

Claims

1. A ventilation valve for ventilating the interior of a vehicle, comprising a valve frame with at least one through opening, and also at least one ventilation flap which is mounted on the valve frame and is pivotable between a closed position and an open position, wherein the at least one ventilation flap closes the at least one through opening in the closed position and opens up the at least one through opening in the open position, further comprising resetting means for pivoting the at least one ventilation flap back out of the open position into the closed position.

2. The ventilation valve as claimed in claim 1, wherein the resetting means are designed to pivot the at least one ventilation flap back into the closed position without elastic deformation.

3. The ventilation valve as claimed in claim 2, wherein the resetting means comprise a counterweight for gravity-induced pivoting of the at least one ventilation flap back into the closed position.

4. The ventilation valve as claimed in claim 1, wherein the resetting means comprise a spring for the spring-force-induced pivoting of the at least one ventilation flap back into the closed position.

5. The ventilation valve as claimed in claim 1, wherein the resetting means comprise a drive which is designed to pivot the at least one ventilation flap back into the closed position.

6. The ventilation valve as claimed in claim 1, wherein the resetting means comprise a drive which is designed to pivot the at least one ventilation flap into the open position.

7. The ventilation valve as claimed in claim 6, wherein the drive is designed to pivot the at least one ventilation flap in a manner depending on an air pressure prevailing in the vehicle interior.

8. The ventilation valve as claimed in claim 1, wherein the at least one ventilation flap has a flap body and a sealing edge surrounding the flap body, wherein the flap body has a greater rigidity than the sealing edge.

9. The ventilation valve as claimed in claim 8, wherein the at least one ventilation flap is produced in a two-component injection molding process, wherein the flap body is composed of a harder material than the sealing edge.

10. The ventilation valve as claimed in claim 8, wherein the at least one ventilation flap is produced in a one-component injection molding process, wherein the sealing edge has a smaller material thickness than the flap body, and/or wherein the sealing edge has a geometrical shape reducing the rigidity.

11. The ventilation valve as claimed in claim 1, wherein the at least one ventilation flap is provided with acoustic insulating material.

12. The ventilation valve as claimed in claim 1, wherein the at least one ventilation flap is composed of a foamed material.

13. A vehicle with a ventilation valve as claimed in claim 1, wherein the at least one ventilation flap is mounted pivotably on the valve frame in such a manner that, in an installed state of the ventilation valve in the vehicle, the at least one ventilation flap opens in the direction of gravity and closes counter to the direction of gravity.

14. The vehicle as claimed in claim 13, which comprises at least one pressure sensor for measuring an air pressure prevailing in a vehicle interior, wherein the ventilation valve comprises a drive which is designed to pivot the at least one ventilation flap into the open position and/or into the closed position in a manner depending on the air pressure.

15. A ventilation valve for ventilating an interior of a vehicle, comprising a valve frame with at least one through opening, at least one ventilation flap mounted on the valve frame and pivotable between a closed position to block flow through at least part of the opening and an open position to allow flow through the part of the opening, and resetting means for pivoting the at least one ventilation flap back out of the open position into the closed position.

16. The ventilation valve as claimed in claim 15, wherein the resetting means comprise a drive which is designed to pivot the at least one ventilation flap into the open position.

17. The ventilation valve as claimed in claim 16, wherein the drive is designed to pivot the at least one ventilation flap in a manner depending on an air pressure prevailing in the vehicle interior.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] An exemplary embodiment of the invention will be explained in more detail below with reference to figures, in which, schematically:

[0026] FIG. 1 shows a ventilation valve according to the invention in a front view with closed ventilation flaps,

[0027] FIG. 2 shows the ventilation valve from FIG. 1 with open ventilation flaps,

[0028] FIG. 3 shows the ventilation valve from FIG. 1 in a rear view,

[0029] FIG. 4 shows the ventilation valve from FIG. 2 in a rear view,

[0030] FIG. 5 shows the ventilation valve from FIG. 1 in a lateral sectional view,

[0031] FIG. 6 shows the ventilation valve from FIG. 2 in a lateral sectional view,

[0032] FIG. 7 shows an exploded illustration of the ventilation valve from FIG. 1,

[0033] FIG. 8 shows a detailed view of the ventilation valve from FIG. 1 in a rear view,

[0034] FIG. 9 shows the illustration from FIG. 6 together with an exhaust gas flow.

[0035] Unless stated otherwise, the same reference signs denote identical objects. For clarity reasons, all reference signs are not shown in all of the figures.

DETAILED DESCRIPTION

[0036] FIGS. 1 to 8 illustrate an exemplary embodiment of the ventilation valve according to the invention.

[0037] The ventilation valve 10 comprises a mounting plate 12, into which a valve frame 14 is embedded. The valve frame 14 is fastened here to the mounting plate 12 via latching projections 15 and a contact edge 17. The contact edge 17 at the same time forms a seal with respect to the mounting plate 12. Four through openings 16 are formed in the valve frame 14 and are spaced apart from one another by means of webs 19. Ventilation flaps 18 are mounted on the webs 19, wherein, for this purpose, pivot mountings 28 of the ventilation flaps 18 engage in pivot bearing receptacles 30 of the webs 19. The ventilation flaps 18 can therefore be pivoted between a closed position, which is illustrated in FIGS. 1, 3, 5 and 8 and in which they cover the through openings 16, and an open position, which is illustrated in FIGS. 2, 4, 6 and 9 and in which they open up the through openings 16. The four ventilation flaps 18 are each pivoted here about axes which extend along the webs 19. The ventilation flaps 18 are preferably produced from plastic in a 2-component injection molding process and each comprise a flap body 18.1 and a sealing edge 18.2, wherein the flap body 18.1 preferably has greater rigidity than the sealing edge 18.2. In the closed position, the softer sealing edge 18.2 can therefore lie against the valve frame 14 in a particularly readily sealing manner. The harder flap body provides each of the ventilation flaps with a high degree of stability and therefore prevents deformation.

[0038] A counterweight which interacts with the four ventilation flaps 18 is identified by reference sign 20. The ventilation flaps 18 here each have a pivot arm 22 which in each case extends through the through openings 16 of the valve frame 14 and has a pin 24 which is in engagement with a pin receptacle 26 of the counterweight 20. This can be seen in particular in FIG. 7, wherein, for the sake of clarity, not all components are completely provided with reference signs. During opening of the ventilation flap 10, the ventilation flaps 18 pivot into their open position. The ventilation flaps 18 carry along the counterweight 20 therewith via the pivot arms 22, as can be seen in particular in FIGS. 4 and 6. The counterweight 20 is moved here upward along the axis of movement B counter to gravity, which acts downward in the figures. In the state of the ventilation flap 10 mounted in the vehicle, such a movement of the ventilation flaps 18 is achieved by a positive pressure prevailing in the vehicle interior. The air pressure in the vehicle interior is of such a size here that the weight force of the counterweight is overcome. An airflow L can thereby flow outward out of the vehicle interior. As indicated in FIG. 6 by the dashed lines, the airflow L leaves the through openings 16 obliquely upward because of the opening angle of the ventilation flaps 18. An exhaust gas flow A (chain-dotted lines in FIG. 9) which comes from an exhaust of the vehicle and likewise rises upward, is therefore carried along by the airflow L, as can be seen in FIG. 9. As the air pressure in the vehicle interior decreases, the force exerted on the ventilation flaps 18 by the airflow drops, with the ventilation flaps 18 being moved back into their closed position by the counterweight 20 as soon as the weight force of the counterweight 20 exceeds the force exerted by the airflow. The counterweight 20 serves here as a passive resetting means which pivots the ventilation flaps 18 back into the closed position.

[0039] On account of the counterweight 20, the ventilation valve 10 can be installed in a multiplicity of installed positions in the vehicle, wherein the ventilation flaps can open in particular also in the direction of gravity. This is possible since the counterweight also permits the ventilation flaps to be set back into the closed position counter to gravity. The counterweight moves the ventilation flaps here into the closed position without elastic deformation. The ventilation flaps can in particular have a greater rigidity than deformable valve flaps known from the prior art. Since a movement of the ventilation flaps is possible without deformation, fewer material fatigue phenomena occur, which leads to a longer service life and to greater tightness of the ventilation valve.

[0040] Furthermore, the refinement of the invention in FIGS. 1 to 8 shows a drainage flap 32 which is arranged at a lower end of the ventilation valve 10. The drainage flap 32 is mounted on a pivot bearing receptacle 36 of the lowermost web 19 via a pivot mounting 34. The drainage flap 32 serves for removing liquid, in particular water, which has passed into the vehicle interior, for example, through the open ventilation flaps. Said water accumulates in a collecting container 38 at the lower end of the ventilation valve 10 and pushes the drainage flap 32 outward as soon as water has sufficiently accumulated, as can be seen, for example, in FIG. 6. In contrast to the ventilation flaps 18, the drainage flap 32 is mounted here in such a manner that it opens counter to gravity and, after letting out the water which is accumulated in the collecting container 38, closes again in a gravity-induced manner.

[0041] Features of the invention include features A-N as follows:

[0042] A. A ventilation valve for ventilating the interior of a vehicle, comprising a valve frame (14) with at least one through opening (16), and also at least one ventilation flap (18) which is mounted on the valve frame (14) and is pivotable between a closed position and an open position, wherein the at least one ventilation flap (18) closes the at least one through opening (16) in the closed position and opens up the at least one through opening in the open position, which comprises resetting means (20) for pivoting the at least one ventilation flap (18) back out of the open position into the closed position.

[0043] B. The ventilation valve per A, wherein the resetting means (20) are designed to pivot the at least one ventilation flap (18) back into the closed position without elastic deformation.

[0044] C. The ventilation valve of A or B, wherein the resetting means comprise a counterweight (20) for the gravity-induced pivoting of the at least one ventilation flap (18) back into the closed position.

[0045] D. The ventilation valve of any of A-C, wherein the resetting means comprise a spring for the spring-force-induced pivoting of the at least one ventilation flap (18) back into the closed position.

[0046] E. The ventilation valve of any of A-D, wherein the resetting means comprise a drive which is designed to pivot the at least one ventilation flap (18) back into the closed position.

[0047] F. The ventilation valve of any of A-E, wherein the resetting means comprise a drive which is designed to pivot the at least one ventilation flap (18) into the open position.

[0048] G. The ventilation valve of E or F, wherein the drive is designed to pivot the at least one ventilation flap (18) in a manner depending on an operating parameter of the vehicle, for example in a manner depending on an air pressure prevailing in the vehicle interior.

[0049] H. The ventilation valve of any of A-G, wherein the at least one ventilation flap (18) has a flap body (18.1) and a sealing edge (18.2) surrounding the flap body (18.1), wherein the flap body (18.1) has a greater rigidity than the sealing edge (18.2).

[0050] I. The ventilation valve of H, wherein the at least one ventilation flap (18) is produced in a two-component injection molding process, wherein the flap body (18.1) is composed of a harder material than the sealing edge (18.2).

[0051] J. The ventilation valve of H, wherein the at least one ventilation flap (18) is produced in a one-component injection molding process, wherein the sealing edge (18.2) has a smaller material thickness than the flap body (18.1), and/or wherein the sealing edge (18.2) has a geometrical shape reducing the rigidity.

[0052] K. The ventilation valve of any of A-J, wherein the at least one ventilation flap (18) is provided with acoustic insulating material.

[0053] L. The ventilation valve of any of A-K, wherein the at least one ventilation flap (18) is composed of a foamed material.

[0054] M. A vehicle with a ventilation valve according to any of A-L, wherein the at least one ventilation flap (18) is mounted pivotably on the valve frame (14) in such a manner that, in an installed state of the ventilation valve (10) in the vehicle, the at least one ventilation flap (18) opens in the direction of gravity and closes counter to the direction of gravity.

[0055] N. The vehicle of M, which comprises at least one pressure sensor for measuring an air pressure prevailing in a vehicle interior, wherein the ventilation valve (10) comprises a drive which is designed to pivot the at least one ventilation flap (18) into the open position and/or into the closed position in a manner depending on the air pressure.

LIST OF REFERENCE SIGNS

[0056] 10 Ventilation valves [0057] 12 Mounting plate [0058] 14 Valve frame [0059] 15 Latching projections [0060] 16 Through openings [0061] 17 Contact edge [0062] 18 Ventilation flaps [0063] 18.1 Flap body [0064] 18.2 Sealing edge [0065] 19 Webs [0066] 20 Counterweight [0067] 22 Pivot arms [0068] 24 Pin [0069] 26 Pin receptacles [0070] 28 Pivot mountings [0071] 30 Pivoting mounting receptacles [0072] 32 Drainage flap [0073] 34 Pivot mounting [0074] 36 Pivot bearing receptacle [0075] 38 Collecting container [0076] A Exhaust gas flow [0077] B Axis of movement [0078] L Airflow