DE202011000453U1 - Throttling device for the air flow through an air inlet - Google Patents

Abstract

Throttling device for the air flow through an air inlet (1) in a body of a vehicle, in particular a motor vehicle, with a round or square frame (2) arranged circumferentially distributed, wedge-shaped webs (3) converge centrally, or parallel, horizontal or vertical Webs (3) of defined width or a lattice structure, characterized by the combination with at least one closing disc (4, 5) on the webs (3) with segmentally distributed cover segments (6, 7), which cover at least a partial area between the webs (3 ) by relative rotation of the Schleißrades (4, 5) cover or with at least one relative to the horizontally or vertically in the angular frame (2) arranged in a grid bars (3) or lattice back arranged sliding closure member (8) of a number of Slats (9), which at least a portion of the gap between at each cover two webs (3) or the holes provided by the grid structure, wherein the relative movement is controlled manually or by a motor or actuator ...

Description

The invention relates to a throttle device for the air flow through an air inlet in a body of a vehicle, in particular a motor vehicle, with a round or square frame with circumferentially distributed, wedge-shaped webs that converge centrally, or parallel, horizontal or vertical webs defined width or one lattice structure.

By closing the radiator or grille or by adjusting the air flow for the radiator can, for. B. the working temperature of the engine of a motor vehicle are regulated, in dependence on the driving speed, so that uniform burns of the vehicle are given. Especially in winter can be achieved by closing the radiator grille, that at least in the warm-up phase no cold air can flow to the heat exchanger, so that a faster heating of the engine and thus a smoother running of the engine are given after a very short time. These benefits of the lockable grille are known as such. In particular, in colder areas also blinds are used to allow a hermetic sealing of the grille. On the other hand, when the engine has warmed up, it is desirable to set it to a certain working temperature in consideration of the air flow velocity and the air temperature. This can be done via the adjustable air inlet.

Throttle devices of the generic type are also used in breakthroughs in building walls to allow ventilation of the room. Also, such throttle devices can be used in conjunction with axial fans. The throttling devices can also be used in nozzles, as used for example in vehicles for ventilation or hot air supply of the passenger compartment.

From the DE 10 2005 036 159 A1 is an air flow control unit, in particular for use as Luftauslassdüse in the motor vehicle interior of a motor vehicle, known having a plurality of movable air guide elements for generating a concentric air flow and / or at least one swirl-like beam spread. The swirling air flow can be adjusted continuously. For this purpose, a stack of relatively mutually rotatable, contoured, perforated, round discs is provided, which can be rotated to effect the spin. Closing the air nozzle is not possible here. A similarly constructed air flow control unit is further from the DE 10 2004 003 059 B4 known.

Furthermore, from the EP 0 324 770 B1 an air outlet of a ventilation system, in particular in a vehicle, with at least one housing, an air duct and a transversely arranged to the flow direction and positively connected to the housing plate known. To this plate a plurality of aligned plates of the same structure are arranged parallel to each other, wherein the plates are arranged transversely to each other by means of an extending through the plates actuating lever to the air duct and have hole pattern, the interaction forms ventilation ducts for the ventilation air. Depending on the position of the actuating lever, a change in the flow direction of the ventilation air is effected. Further, a guide is provided to prevent adjacent plates from twisting against each other. This guide is formed by guide members, which allows a parallel displacement of the plates relative to each other in one direction only. The guide members adjacent to each other adjacent surfaces allow a parallel displacement of the plates in mutually different directions and prevent rotation of the plates against each other.

From the DE 10 2005 011 814 A1 is a cooler assembly for a vehicle with at least one water cooler and at least one intercooler and a device for influencing the amount of air permeable through the radiator assembly known. In order to influence the amount of air flowing through the radiator assembly, a spatially displaceable cover plate is provided with perforations bounded by webs. The design of the apertures corresponds essentially to the configuration of the flow openings in the charge air or water cooler, so that cover at a partial displacement of the cover plate from a starting position into a covering the webs at least the flow openings in the water and intercooler in the flow direction. The webs of the air intake are not included in the design.

From the DE 10 2006 053 883 A1 is a cooler assembly for a vehicle with a water and / or intercooler and with a device for influencing the permeable through the cooler assembly air quantity, in which at least two spaced to the water and / or intercooler arranged module sheets are provided, of which at least one the other is sliding relocatable. By interaction with the second module sheet defined gap widths of passage openings can be adjusted. When using only a single module sheet is a precise adjustment of a desired passage gap only when directly resting the module sheet possible on the cooling unit. The webs of the air intake are also not included in the design.

Based on the illustrated prior art, the invention has the object, a throttle device of the generic type so that it consists of only a few parts, can be operated in a simple manner and on the one hand forms a hermetic seal and on the other hand, an optimal passage of air in the open Condition ensures.

The object is achieved by the invention by designing the throttle device according to the technical teaching given in claim 1. Advantageous developments of the invention are specified in the dependent claims in detail.

The invention provides for the combination of the air inlet with statically arranged webs with at least one closing disk resting against the webs with segment-shaped cover segments distributed over the circumference and covering at least a portion between the webs by relative rotation of the closing disk. This arrangement can be used both in a round design of the female frame as well as in a square design of the frame. In the case of the angular breakthrough care must be taken to ensure that the protruding edge cover the cover segments during rotation. It is advantageous in an angular frame training, however, to combine the static arrangement of then horizontally or vertically extending webs with a sliding arrangement of lamellae, which cover the gaps between the adjacent webs by lateral displacement or release the passage. By moving a covering of the spaces between the webs or the slats are pushed when opening the passage behind the webs.

The same is also achievable if instead of a grid structure of the webs and lamellae, a grid structure is used as a cover, for example, a perforated plate with a plurality of introduced holes. Behind such a static arrangement, a plate with staggered lattice structure or with slats is mounted so that the passage holes of the static arrangement can be covered by moving the plate through the grid cross points or slats and can be opened again. The behind the webs arranged closing plates or the closing part can be moved manually against each other when concern or even via an engine, for example remotely, which is advantageous if the throttle device is installed, for example, in the radiator grille of a motor vehicle to the air passage in the engine compartment below To be able to optimize consideration of the engine temperature. The displacement can take place via linear or over toggle lever transmission devices with which the motor is coupled. In the case of the use of an electric motor, it is also advantageous to provide a coupling between the closing part to be moved or the closing disc or the closing part with grid structure and the motor in order to produce a decoupling so that an automatic opening of the air insert takes place by the airstream, for which purpose it is advantageous if the lamellae or the lattice walls of the displaceable part are shaped such that the air flow displaces the movable part in a desired manner so that the passage opening between the lugs allows a free air flow.

In order to make the lamellae or cover segments not visible in the open state of the air inlet in appearance, it is advantageous if the width of the cover segments or the fins is smaller than the width of the webs. This applies to all embodiments of the webs and lamellae, including those with a lancet-shaped design. In the open state of the air insert the lamellae or cover segments lie behind the webs, while the openings are congruent to the gaps between the webs.

In a further embodiment it is provided that two closing disks or closing parts are each mounted one behind the other, that the rotation or displacement of the two closing disks or the closing parts relative to each other and against the webs is such that the gap between two webs in a position completely closed and is completely open in another end position. Since an air gap is created by the stacking arrangement of two such moving parts between the webs and the edge zones of the moving parts and thereby air can undesirably pass through a height adjustment of the edges of the second closing disc or the closing part is provided in such a way that the second closing discs or the closing parts with the webs form airtight seals. This can be realized for example by a protruding sealing wall. It is also possible to mechanically couple the two closing disks or closing parts to one another in such a way that, on pivoting of the one part or on displacement of the one part, the second is pulled along from a certain movement stroke. Conversely, when swinging back or pushing the first part is taken after the insertion of the second part and pushed back into the starting position behind the webs.

A particular advantage is given when the closing disc or the closing part initially moved away in the axial direction of the webs and then only rotated or moved. By means of the combined rotary and lifting movement (similar to a threaded spindle), the moving parts move on the webs to or away from these. In the case of the movement in the direction of the back of the webs a closure is realized simultaneously. In the case of disengagement is given by the departure itself an outer annular gap. In addition, the fields for overlapping louvers or cover elements for the passage of air are free. Furthermore, after uncoupling the engine from the moving parts, the airstream can easily make an axial displacement of the moving parts in order, for example, to cool the engine behind it with air.

The webs, as well as the frame, made of plastic. However, designs in die-casting technology are also possible. In the case that plastic is used, the webs must be reinforced by reinforcing ribs, so that the high wind loads and other mechanical stresses, such. As rockfall or ice and rain, can not lead to the destruction of the webs or fins. An air flow-conducting design of the webs and / or the cover elements also favors the opening of the air throttle device with the engine disconnected by the wind substantially.

Behind a housing wall of the air inlet with struts or behind a grille with struts so several closure elements are arranged displaceable, z. As discs, cover segments or slats. However, they interact with the struts and the passages formed thereby. They control the amount of air flow according to their setting. Both in the rectangular and in the round design, the closure goes back to the basic principle of a fan.

When the throttle device is closed, the closure means, namely the cover segments or the lamellae, enter the gaps between the struts of the radiator grille and close it. Preferably, the closure means are nested, as previously described. In the round variant, there is an overlap between the discs.

By a simultaneous rotation and lifting movement of the closing disc or the closing part is ensured that the icing can be counteracted because the ice is blown off during the movements and taken by the air flow. In the case that a plurality of closure discs are arranged one behind the other used, these are gradually entrained by the rotational movement. The discs thus have a freewheel, so that only after a certain rotational movement formed on the axis key can be taken.

To improve the aerodynamics, both the struts and the closure means may have chamfers. To improve the static properties, the closure elements can be provided on the back preferably with a rib structure. In the event of an emergency (failure of the engine in the closed position of the flaps), a fail safe mode can be provided which prevents the radiator located behind the throttle device from overheating and causing damage to the engine. In the simplest case, this protection consists of a magnetic coupling, which is interposed between the engine and drive unit. If the emergency occurs, the clutch is de-energized and switches off. The closing disc or the closing part drives, driven by the wind, back and releases the gap between the webs, so that overheating of the radiator is excluded.

The throttle device according to the invention combines the following advantages: minimum number of components, thereby very inexpensive to produce. The system works highly efficiently. It only needs a simple robust kinematics be provided. The closure means can be placed both in the radiator grille and in front of and behind the radiator. The bars of the grille can be used with. Both the bars and the closure means protect against stone chipping, snow, ice and other environmental influences. The arrangement is a space-saving implementation possible.

The invention will be explained in the following with reference to the embodiments illustrated in the drawings.

In the drawings show:

1 an isometric front view of a throttle device according to the invention with opened passage,

2 this in 1 illustrated embodiment in the closed state,

3 an isometric exploded view with the essential components of the inventively designed throttle device according to the 1 and 2 and

4 a schematic representation of an arrangement with square frame and sliding Verschließteil.

In the 1 to 3 shows a first embodiment of an inventively designed throttle device is shown. In a housing 12 is an air intake 1 incorporated. This consists of a frame 2 , the component of the housing 12 is. Static are in the round air intake 1 Stege 3 arranged, which have a segment-shaped structure and at a central part 13 are attached and outside of the frame 2 , The middle part 13 is designed as a hollow part accessible from the rear, which is made 3 is apparent.

According to the invention, a first closing disc is now in the embodiment 4 provided on the back, with cover segments 6 equipped, which is essentially the same width as the webs 3 have and also extend from the outer edge inwards and are fastened there to a bearing ring. The division is the same as the division of the webs 3 , which are arranged evenly offset by 60 °. It can be seen that the space between two adjacent webs 3 is relatively large and of the cover segment 6 when turning the closing disc 4 can not be fully covered. To ensure this is a second closing disc 5 arranged behind it. This also has cover segments 7 on, which are mounted in the same pitch, ie 60 ° division, and both on the outer. Ring as well as on the inner bearing disc 14 are attached.

The central bearing discs 14 the two closing discs 4 and 5 each have a diameter that of the center part 13 matches, placing it on the back sleeve of the middle part 13 can be plugged. In this sleeve is a rotary drive 16 insertable, via a coupling 11 in a sleeve 15 is inserted, which is secured against rotation on the sleeve of the center part 13 can be placed, stored. At the back of the sleeve 15 is an engine 10 screwed on with flanges and screws. About spring / groove connections are parts of the rotary drive 16 with the rear closing disc 5 connected so that by motor control the closing disc 5 can be twisted. The edges of the cover segments 7 are designed so that they automatically turn the covering segments 6 engage behind the inner closure plate and this also rotated by a defined angular extent, so that both Abdecksegmente 6 and 7 for closing the gap between two webs 3 can be twisted. In this position is therefore the air intake 1 locked. This is off 2 seen. Now takes place an opposite rotation of the closing disc 5 at a defined angle, so again is the closing disc 4 rotated, until the cover segments 6 and 7 behind the jetties 3 lie and a full passage of the air flow through the openings between the webs 3 given is.

It can be seen that through the webs 3 The arrangement is stone chip resistant, and ice and snow can not cause damage. Such a throttle device is therefore particularly suitable for being able to be used in the radiator grille of an automobile. This can be a passenger car, but also a truck. In other engine-driven machines such throttling devices can also be used. But they can also be used in air outlets, which are provided in wall breakthroughs. In addition, it is possible to use the rotary actuator 16 To train so that with the suit of the engine, first, the two closing discs 4 and 5 from the back of the footbridges 3 be deducted and then carried out with further rotation, the adjustment in the manner described. It can also be provided that the closing disks can be controlled independently of each other by interposing gears and couplings, so that each intermediate position for limiting the passage area between the two adjacent webs is adjustable. Hereby the air flows are better adjustable according to the needs.

4 shows another embodiment, which is advantageous in an angular embodiment of an air inlet 1 can be used, in a schematic sectional drawing. At the frame 2 there are the footbridges 3 tethered. At the jetties 3 are laterally highlighted still extensions provided to reduce the passage opening or widen the web. Behind the jetties 3 there is a closing part 8th in plate form with parallel lamellae 9 separating the space between the adjacent webs 3 cover each. Between the slats 9 again columns are provided, as can be seen. These are behind the jetties 3 , By moving the closing part 8th to the left or to the right, the columns enter the space between the webs 3 so that air can pass through. If in addition the closing part 8th via a Abrückmechanik before moving from the back of the webs 3 is deductible, this is also an additional air passage laterally possible. Likewise, of course, the slats can be made narrower or be adapted to the web width that they behind the webs 3 arrive in the open state. The expert opens up here many possible solutions. Also, the closing part 8th consist of two successively arranged, mutually displaceable closing parts with lamellae, so that the space between the webs can be closed by two such lamella overlaps. Again, a servomotor, z. B. a linear motor, are used to, drawn in the direction of the arrow to move the closing parts in the desired manner, whereby the air flow through the air inlet 1 can be controlled.

LIST OF REFERENCE NUMBERS

1

air intake

2

frame

3

web

4

closing disk

5

closing disk

6

covering segment

7

covering segment

8th

closing part

9

lamella

10

engine

11

clutch

12

casing

13

middle part

14

bearing disk

15

shell

16

rotary drive

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 patent literature

• DE 102005036159 A1 [0004]
• DE 102004003059 B4 [0004]
• EP 0324770 B1 [0005]
• DE 102005011814 A1 [0006]
• DE 102006053883 A1 [0007]

Claims (9)

Throttling device for the air flow through an air inlet ( 1 ) in a body of a vehicle, in particular a motor vehicle, with a round or square frame ( 2 ) with circumferentially distributed, wedge-shaped webs ( 3 ), which converge centrically, or parallel, horizontal or vertical webs ( 3 ) defined width or a lattice structure, characterized by the combination with at least one of the webs ( 3 ) rear closing disc ( 4 . 5 ) with segmentally distributed covering segments ( 6 . 7 ), which cover at least part of the area between the bridges ( 3 ) by relative rotation of the Schleißrades ( 4 . 5 ) or with at least one relative to the horizontally or vertically in the angular frame ( 2 ) arranged in a grid webs ( 3 ) or lattices arranged on the rear sliding lock ( 8th ) of a number of lamellae ( 9 ), which at relative displacement at least a portion of the space between each two webs ( 3 ) or cover the holes provided by the grid structure, wherein the relative movement is controlled manually or by a motor or actuator. Throttle device according to claim 1, characterized in that the width of the cover segments ( 6 . 7 ) or the lamellae ( 8th ) is smaller than the width of the webs ( 3 ). Throttle device according to claim 1, characterized in that the rotary or sliding movement by means of a motor ( 10 ) or actuator and between the engine ( 10 ) or the actuator and the coupling to the closing disc ( 4 . 5 ) or the closing part ( 8th ) a coupling ( 11 ) is interposed, after their decommissioning the slats or cover segments ( 7 . 8th ) through the wind behind the bars ( 3 ) of the air inlet are twisted or displaceable. Throttle device according to claim 1, characterized in that two closing disks ( 4 . 5 ) or closing parts ( 8th ) are each mounted one behind the other, that the rotation or displacement of the two closing discs ( 4 . 5 ) or closing parts ( 8th ) relative to each other and opposite the webs ( 3 ) such that the gap between two webs ( 3 ) is completely closed in one end position and is fully open in another end position, wherein a height adjustment of the edges of the second closing disc ( 5 ) or the closing part ( 8th ) is performed such that the second closing discs ( 5 ) or the closing parts ( 8th ) with the webs ( 3 ) form airtight seals. Throttle device according to claim 1, characterized in that the webs ( 3 ) consist of plastic and have reinforcing ribs on the back. Throttle device according to claim 1, characterized in that the webs ( 3 ) and / or the cover segments ( 6 . 7 ) or the slats ( 9 ) on the closing discs ( 4 . 5 ) or the closing parts ( 8th ) have an air flow-conducting design. Throttle device according to claim 1, characterized in that with two successively arranged closing discs ( 4 . 5 ) or closing parts ( 8th ) the last closing disc ( 5 ) or the closing part ( 8th ) Is coupled via a driving device with the one or the first such that during the rotation of the second part is gradually entrained. Throttle device according to claim 1, characterized in that a depth shift or a lateral displacement is provided. Throttle device according to claim 8, characterized in that at a depth displacement simultaneously a combined rotational and lifting movement of the at least one closing disc ( 4 . 5 ) or the closing part ( 8th ) he follows.

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