DE102018219076A1 - Air duct system for a ventilation or air conditioning system - Google Patents

Abstract

The invention relates to an air duct system (2) for a ventilation or heating or cooling or air conditioning system, in particular of a motor vehicle (1), with an elongated air duct (8) which has an at least essentially cylindrical jacket wall (9) and at least one longitudinally extending one Has opening (10) in the casing wall (9), and with at least one discharge nozzle (3) assigned to the opening (10). It is provided that the opening (10) is assigned at least one deformable or displaceable closing element (12) and closes the opening (10) in a rest position, and that the outflow nozzle (3) is mounted in a longitudinally displaceable manner on the air duct (8) and means for deforming the closing element (12) in the region of the outflow nozzle (3), in particular only in the region of the outflow nozzle (3), into a release position that at least partially releases the opening.

Description

The invention relates to an air duct system for a ventilation or heating or cooling or air conditioning system, in particular of a motor vehicle, with an elongated air duct, which has an at least substantially cylindrical jacket wall and at least one longitudinally extending opening in the jacket wall, and with at least one the outlet nozzle associated with the opening.

The invention further relates to a motor vehicle with such an air guidance system.

Air guidance systems of the type mentioned are known from the prior art. For example, the published patent application discloses DE 10 2014 218 840 A1 an air duct system with an air duct to which an outflow is assigned in order to allow the fresh air or conditioned air provided by the air duct to flow into a vehicle interior. The outflow has means for changing the air flow direction into the vehicle interior. Often, the air duct extends under the dashboard across the vehicle, and one or more outflow nozzles in the vehicle interior are oriented perpendicular to the longitudinal extension of the air duct to direct the air provided into the vehicle interior. The outflow direction is then influenced by the outflow nozzle itself, as shown in the aforementioned publication.

Also from the published application DE 10 2014 102 533 A1 an air vent is known, with pivotable slats to influence an air outflow direction.

The invention has for its object to provide an improved air duct system that offers the user increased variability with regard to the use and setting of the air duct system.

The object on which the invention is based is achieved by an air guidance system having the features of claim 1. This has the advantage that not only the outflow direction of the outflow nozzle can be changed, but rather that the position of the outflow nozzle itself can be changed. As a result, the air flow in the motor vehicle, for example, can be further individually optimized for the passengers therein. This is achieved according to the invention in that the opening is assigned at least one deformable closing element, which closes the opening in a rest position, and in that the outflow nozzle is mounted in a longitudinally displaceable manner on the air duct and means for deforming the closing element in the region of the outflow nozzle, in particular only in the region of the Outflow nozzle, in a release position at least partially opening the opening. The outflow nozzle can thus be displaced along the air duct. As a result, the outflow position of the air flow can be selected by the user. If, in addition, the outflow direction can also be influenced by, for example, adjustable slats of the outflow nozzle, this results in highly individual use of the air guidance system, which can be optimally adapted to the needs of the users. By moving the discharge nozzle, the user can select the position at which the air is to flow out along the air duct. The deformable closing element closes the opening securely on the one hand where the outflow nozzle is not located, and opens it in the region of the outflow nozzle in order to establish a connection between the air duct and the outflow nozzle.

According to a preferred development of the invention, the outflow nozzle has an actuating slider which can also be displaced with the outflow nozzle and applies a force to the closing element for deforming into the release position. The actuating slider is thus also displaced with the outflow nozzle and slides, for example, directly along the closing element in order to deform it from the closed rest position into the release position. This results in a simple construction.

The actuating slider preferably acts directly on the closing element. The actuating slider thus lies directly on the closing element and is moved along the closing element by moving the outflow nozzle. The actuating slide pushes the closing element into the release position. Optionally, the outflow nozzle has a plurality of actuation slides, preferably two further actuation slides lying in front of and behind the one actuation slider in the sliding direction in order to shift the closing element back into the rest position and to ensure the closure of the opening outside the outflow nozzle. In this case, the closing element is optionally designed to be limp and is opened and closed solely by the actuating slides.

According to a preferred development of the invention, the at least one closing element, seen in the longitudinal extent of the ventilation duct, is assigned a plurality of actuating levers which, when actuated, partially deform the at least one closing element into the release position. The air duct system thus has a plurality of actuating levers which are arranged along the air duct and which cooperate with the closing element. By pressing of a single actuating lever, the closing element is locally deformed into the release position by the actuated lever. If only one of the actuation levers is operated, the other actuation levers remain in their original position and the associated closing elements remain in their position in the closed position. The actuating slider expediently interacts with the actuating levers in order to actuate these when the outflow nozzle is displaced in order to release the opening in regions. This enables indirect actuation of the closing element. If a plurality of locking elements are present, then at least one separate actuating lever is preferably assigned to each individual locking element. For example, instead of a single continuous closing element, there can be a plurality of closing elements which cooperate in a sealing manner next to one another in order to close the opening together. If one of the closing elements is actuated, the opening is displaced locally by this one closing element in the region of the outflow nozzle into the release position.

According to a preferred embodiment of the invention, the closing element is designed to be inherently elastic, so that it is automatically brought into the rest position when it is not acted upon by the actuating slide. This means that there is no need to actively close or deform the closing element into the closed position. However, it is optionally supported by the or a further actuating slide or by at least one spring element during the movement into the closed position. Overall, this ensures that the air duct system can only let air out where the air outlet nozzle is located.

According to a further embodiment of the invention, the actuating lever is preferably subjected to spring force in order to move or urge the closing element into the rest position. In this case, the force for the return movement of the closing element into the rest position is therefore not provided or not only by the closing element, but rather by spring elements interacting with the actuating levers. As a result, the closing element itself can be manufactured more economically, for example.

The actuating levers are preferably fixedly connected to the at least one closing element in order to be able to urge it into the rest position as well as into the release position. If several locking elements are present, each locking element is firmly connected to at least one actuating lever. As a result, the movement forces for the closing element are transmitted to the closing element solely by the actuating lever or a positive guidance of the closing element is ensured. Preferably, the air duct system has a plurality of closing elements which extend along the opening in order to close it. This can simplify the maintenance effort, for example, a single closing element can be replaced.

Furthermore, it is preferably provided that each actuating lever has a slide stop for the actuating slide. This ensures a low-wear interaction of the actuation slider and actuation levers. In particular, the sliding stop, viewed in both directions of movement of the outflow nozzle, has a run-on slope, so that the actuating slider comes into contact with the actuating lever with little wear and noise and exerts the actuating force.

Particularly preferably, the actuation slider, when viewed in the direction of displacement, has at least one curvature or incline for actuating the actuation lever. The curvature or bevel of the actuating slider can be present in addition or as an alternative to a curvature or bevel of the sliding stop. This reduces wear. In addition, the curvatures or bevels when moving the discharge nozzle reduce noise and friction, so that the user comfort is further increased.

Particularly preferably, the air duct has a hinge pin on a longitudinal edge delimiting the opening for pivotably mounting and holding the actuating levers. The actuating levers are thus pivotably mounted directly on the air duct. This results in an inexpensive and compact embodiment of the air duct system. The hinge pin extends in particular over the entire length of the opening.

The actuating levers preferably have a pin receptacle for the hinge pin of the air guide channel, which is designed to be elastically deformable for radial clipping onto the hinge pin. This ensures simple assembly of the actuating lever along the hinge pin.

Alternatively, the actuating levers preferably have a pin receptacle for the hinge pin of the air duct, which are preferably stiff for being pushed axially onto the hinge pin. As a result, the actuating levers are advantageously held particularly firmly on the hinge pin, but they must be threaded onto the hinge pin one after the other so that a replacement of a single operating lever is more complex compared to the embodiment described above.

The closing element is preferably designed as a flexible sealing film which extends over the entire opening. In its rest position, the sealing film preferably lies against an inside wall surface of the air duct, so that it is pressed against the inside wall wall by the air pressure in the air duct, which results in an advantageous sealing effect. The longitudinal edge of the sealing film opposite this contact point lies in particular outside the air duct and is sealingly attached to the plurality of actuating levers.

The motor vehicle according to the invention with the features of claim 15 is characterized by the air duct system according to the invention. This results in the advantages already mentioned.

• 1 ein Kraftfahrzeug mit einem vorteilhaften Luftführungssystem,
• 2 eine perspektivische Detailansicht des vorteilhaften Luftführungssystems,
• 3A und B eine Querschnittsdarstellung durch das Luftführungssystem der 2 in unterschiedlichen Betätigungszuständen, und
• 4 eine weitere perspektivische Detailansicht des Luftführungssystems der 2.

Further advantages and preferred features and combinations of features result in particular from what has been described above and from the claims. The invention will be explained in more detail below with reference to the drawing. Show

• 1 a motor vehicle with an advantageous air duct system,
• 2nd a detailed perspective view of the advantageous air duct system,
• 3A and B is a cross-sectional view through the air duct system of FIG 2nd in different operating states, and
• 4th a further perspective detailed view of the air duct system of 2nd .

1 shows the interior of a motor vehicle in a simplified perspective view 1 . The interior is an air duct system 2nd assigned, in the present case two outflow nozzles arranged at a distance from one another 3rd having. The outflow nozzles 3rd are in a slot-shaped recess 4th of an interior trim part 5 slidably arranged, as by double arrows 6 displayed. The displaceability of the outflow nozzles 3rd the air duct system must be ensured 2nd like with reference to 2nd to 4th described below so that air is always only through the vents 3rd gets into the vehicle interior. This makes it the users of the air duct system 2nd or the air duct system 2nd air conditioning or ventilation system possible, not only the outflow direction of the air flow from the outflow nozzles by means of adjustable slats 7 the outflow nozzles 3rd to change, but also the outflow position along the recess 4th at which the air flow should emerge.

2nd shows the air duct system in a simplified perspective view 2nd . This has an air duct that extends in particular in a straight line 8th on. The air duct faces 8th an at least substantially cylindrical jacket wall 9 on. Along the jacket wall 9 extends an opening 10th over the entire length or at least over the entire shown longitudinal section of the air duct 8th . This is the air duct 8th open to a radial side. Through axial front openings 11 is fresh air, air-conditioned or not, in the air duct 8th eligible, as indicated by arrows. Through the opening 10th can or can the air flows theoretically from the air duct 8th escape laterally or radially. To achieve that the air flow only in the area of a vent 3rd from the air duct 8th emerges is the opening 10th a closing element 12th assigned, which is designed according to the present embodiment as a self-elastic sealing film or mat. The closing element 12th extends over the entire opening 10th such that it's the opening 10th completely closed in an unloaded rest position.

Alternatively or additionally, it would also be possible (not shown here), the air duct 8th Fresh air through one or more supply openings in the jacket wall of the elongated air duct 8th feed. The feed openings can e.g. B. the opening 10th opposite or be arranged at an angle of 90 degrees to this.

3A shows a cross section through the air duct system 2nd laterally spaced from the outflow nozzle 3rd . It can be seen that the closing element 12th on a present upper longitudinal edge 13 on an edge section of the inside of the jacket wall 14 the jacket wall 9 of the air duct 8th lies on. This will make the locking element 12th through the in the air duct 8th resulting air pressure from the inside against the jacket wall 9 pressed, and thereby lies sealingly against this.

On the from the long edge 13 facing longitudinal edge 15 is the closing element 12th on a variety of operating levers 16 held. The operating levers 16 are preferably all the same and in particular have a pin receptacle 17th for pivotable storage on a hinge pin 18th on. The hinge pin 18th is according to the present embodiment of the air duct 8th or its jacket wall 9 integrally formed and extends along the lower edge of the opening 10th . The operating levers 16 are in the area of the pin holder 17th either designed to be elastically deformable so as to be radial on the hinge pin 18th to be able to clip on or they are axially on the hinge pin 18th pushed on and are preferably designed so stiff that they do not radially from the hinge pin 18th can be removed.

The operating levers 16 each have a holding section 19th on that in a holding recess 20th of the closing element 12th is held positively, so that by moving the operating lever 16 around the hinge pin 18th the closing element 12th is taken or moved in some areas. In the in 3A shown position seals the closing element 12th the opening 10th completely.

Becomes one of the operating levers 16 however - in the present case counterclockwise - pivoted so that it is the in 3B occupies the position shown, so the operating lever 16 the closing element 12th with and loosen the upper longitudinal edge 13 from the jacket wall 9 so that the opening 10th of the air duct 8th is released at least in certain areas. In the present exemplary embodiment, this is the actuating lever 16 pivotable or swiveled by approximately 90 degrees. On the end of the respective actuating lever facing away from the fastening section 16 this has a slide stop 21st that serves to operate it.

The outlet nozzle 3rd is on the air duct 8th slidably mounted. To do this, grips the outflow nozzle 3rd preferably with a housing section 22 the air duct 8th in areas, such as in particular 3A and 3B evident.

4th shows a simplified perspective view of the air duct 8th facing back of the outlet nozzle 3rd , with the operating levers 16 that lie in rows against each other.

The outlet nozzle 3rd has an actuating slide 23 on that between the sliding stops 21st and the air duct 8th is slidably arranged. The actuating slider has the slide stops 21st the operating lever 16 facing a curved surface, so that in both directions of the discharge nozzle 3rd as by the double arrow 6 also in 4th displayed, chamfers for the sliding stops 21st are formed. This will reduce the noise when moving the nozzle 3rd along the air duct 8th minimized and a gentle and low-wear actuation of the actuation levers 16 guaranteed. The width of the slide stop 23 increases towards the center - seen in the direction of displacement. This will cause the sliding stops 21st towards the air duct 8th pushed away, as in 3B shown, causing the operating lever 16 , as previously described, are pivoted. The widest part of the slide stop 23 lies in the middle of the discharge nozzle 3rd an outflow nozzle opening 24th opposite. The sliding stop 23 is chosen so narrow that next to the outflow nozzle opening in the direction of displacement 24th the operating levers 16 are in their rest position, i.e. not pivoted. This ensures that only in the area of the vent 3rd , especially only in the area of the outflow opening 24th , the closing element 12th , as in 3B is pivoted into the release position around the opening 10th in the area of the vent 3rd to release.

For resetting the operating levers 16 in the starting position as they are next to the vent 3rd is shown, is at least one each, the actuation slider 23 opposite glider, left and right of the glider 33 provided on the other side of the slide stops 23 acts, or it is, as shown in the present embodiment, on the actuating slider 23 opposite side of the operating lever 16 a spring bar 25th or tension wire arranged, which an elastic biasing force on the actuating lever 16 in the direction of the resting position. As soon as the vent 3rd thus with the actuating glider 23 on an operating lever 16 has been pushed past, the spring preload of the spring rod pushes 25th the actuators 16 and thus the closing element 12th back to the rest position in which the air duct 8th or the opening 10th is closed.

It is achieved in that a user runs the vent along the air duct 8th can shift to determine the outflow position of the air. In addition, he can operate the slats, for example 7 influence the outflow direction. The advantageous design ensures that the air only through the outlet nozzles 3rd from the air duct 8th exit.

As an alternative to the exemplary embodiment shown, it is provided (not shown here) that a plurality of closing elements 12th is available. For example, every operating lever 16 be connected to its own closing element, adjacent closing elements sealingly abutting one another in the rest position, around the air duct 8th or the opening 10th to close. It is also conceivable instead of a spring bar 25th to provide multiple spring elements, each actuating lever 16 in particular, a separate spring element is assigned, which the actuating lever 16 Preload or push into the rest position.

While according to the present embodiment, a vent 3rd with a short Outflow path is present, which is a short flow path from the air duct 8th up to the vehicle interior, the vent can 3rd also be long, for example a hidden arrangement of the air duct 8th to allow behind a dashboard or the like, the vent 3rd preferably has a curvature. For example, the air duct 8th above the outflow opening 24th lie in the vehicle interior in order to make optimal use of the available space.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included 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.

Patent literature cited

• DE 102014218840 A1 [0003]
• DE 102014102533 A1 [0004]

Claims (15)

Air duct system (2) for a ventilation or heating or cooling or air conditioning system, in particular of a motor vehicle (1), with an elongated air duct (8) which has an at least essentially cylindrical jacket wall (9) and at least one longitudinal opening (10) in the jacket wall (9), and with at least one discharge nozzle (3) assigned to the opening (10), characterized in that the opening (10) is assigned at least one deformable or displaceable closing element (12) and the opening (10) in closes a rest position, and that the outflow nozzle (3) is mounted for longitudinal displacement on the air duct (8) and means for deforming the closing element (12) in the area of the outflow nozzle (3), in particular only in the area of the outflow nozzle (3), into a Has opening (3) at least partially releasing release position. Air guidance system according to the preceding claim, characterized in that the outflow nozzle (3) has an actuating slide (23) which can also be displaced with the outflow nozzle (3) and applies a force to the closing element (12) for deforming into the release position. Air guidance system according to one of the preceding claims, characterized in that the actuating slide (23) acts directly on the closing element (12) with a force. Air guiding system according to one of the preceding claims, characterized in that the at least one closing element (12) in the longitudinal extension of the air guiding channel (8) is assigned a plurality of actuating levers (16) which, when actuated by the actuating slide (23), the closing element (12 ) deform into the release position in some areas. Air guidance system according to one of the preceding claims, characterized in that the closing element (12) is designed to be inherently elastic and, in the absence of action by the actuating slide (23), automatically reaches the rest position. Air guidance system according to one of the preceding claims, characterized in that the actuating levers (16) are acted upon by spring force in order to urge the closing element (12) into the rest position. Air guidance system according to one of the preceding claims, characterized in that the actuating levers (16) are firmly connected to the closing element (12) in order to be able to urge this into both the rest position and the release position. Air guidance system according to one of the preceding claims, characterized in that each actuating lever (16) is assigned one or in each case a spring element (25) for pretensioning the closing element (12) in the rest position. Air guidance system according to one of the preceding claims, characterized in that each actuating lever (16) has a sliding stop (21) for the actuating slider (23). Air guidance system according to one of the preceding claims, characterized in that the actuating slider (23), when viewed in the direction of displacement, has at least one bend or slope for actuating the actuating lever (16). Air duct system according to one of the preceding claims, characterized in that the air duct (8) has a hinge pin (18) on a longitudinal edge delimiting the opening (10) for pivotably mounting and holding the actuating lever (16). Air guidance system according to one of the preceding claims, characterized in that the actuating levers (16) have a pin receptacle (17) for the hinge pin (18) of the air guide channel (8). Air guidance system according to one of the preceding claims, characterized in that the actuating levers (16) are designed to be elastically deformable in the region of the pin receptacle (17) for clipping onto the hinge pin (18), or are particularly stiff for axially sliding onto the hinge pin (18) . Air guidance system according to one of the preceding claims, characterized in that the closing element is designed as a flexible sealing film. Motor vehicle (1) with an air duct system (2) according to one of the Claims 1 to 14 .

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