DE10357129A1 - Flap valve arrangement for length variable air induction passage system has torsion spring installed around shaft of flap to load flap assembly with force acting in opening direction - Google Patents

Abstract

The flap valve arrangement for a length variable air induction passage system has flap assembly (10) with a flap body (6) mounted on a shaft (9) which is rotated by an operating device. A spring (16) loads the flap assembly with a force acting in the opening direction, and is in the form of a torsion spring installed around the shaft. The torsion spring is installed outside the flow passages of an air induction passage system housing and by a first end (17) lies against a protrusion (19) on one wall of the housing. The other end of the spring bears against a lever (20) fitted on the shaft.

Description

The The invention relates to a switching flap device for a variable-length Air intake duct system with a switching flap, at least a switching valve shaft and several fixed on the switching valve shaft arranged switching flap body wherein the shaft of an actuator in such a rotation is displaceable that the switching flap Association against a first an angle limiting stop in a Open position of the switching valve body to release a short circuit channel between a collection inlet channel and single intake ducts the Luftansaugkanalsystems and against a second the adjustment angle limiting stop in a closed position of the switching valve body to close of the short-circuit channel is movable.

such Switching flap devices are well known and are incorporated in a variety of applications described. The air intake duct systems consist of a collection inlet channel as well as individual leading to the cylinders suction channels. With Help of flapper devices can reduce the effective swing tube length Releasing a short-circuit channel shortened be, resulting in higher Speed ranges a significant torque increase is achieved, giving a improved fuel economy, lower exhaust emissions and a better acceleration capacity entails.

In the DE 196 07 285 For example, a damper device for changing the effective vibrating draft tube length will be described. In this case, arranged on a switching valve shaft switching valve body via an actuating unit, which consists of an electric motor and a gear unit is rotated. To limit the end positions of the switching flap stops are provided in the air intake duct system. These end stops are formed by molded onto the Luftansaugkanalgehäuse slightly protruding surfaces.

disadvantageous in the known embodiments is, however, that flow influences in the suction channel such on the valve body and thus act the switching flap association that this from his open Position is moved unintentionally in the closed position. By these acting flow forces is the electric or optionally pneumatic actuator for the switching valve shaft in terms of performance, overwhelmed that means he can the permanently high retrievable counterforce to the flow forces not exercise, so that a thermal overload the drive is the result. One way to solve this Problems would be more but also more expensive drive modules, which increases costs and the needed Increased installation space would.

Corresponding It is an object of the invention to provide a switching flap device, in which the occurring flow forces balanced can be so that one simpler and cheaper because not so powerful drive can be used.

These Task is solved by that a spring the switching flap association with a force acting in the opening direction applied. This spring acts in the opposite direction the acting flow forces, so that on simple and inexpensive Way the butterfly valve body in the direction of the closed position is biased and thus a smaller and cheaper Drive can be used.

In a preferred embodiment the spring is a torsion spring arranged around the shaft, whereby unfavorable influences by occurring radially acting transverse forces on the bearings of the Switch valve assembly can be prevented, so that the service life the warehouse increased.

In a preferred embodiment is the torsion spring outside which flowed through channels a housing arranged the Luftansaugkanalsystems and a first end of the torsion spring lies against a projection which on a wall of the housing of the Air intake duct system is arranged. Thus, disturbance influences on the flow avoided in the air intake duct system and a simple support of the Torsion spring end reached.

In a continuing Embodiment is a second end of the torsion spring against a lever, which at least rotatably mounted on the shaft is attached to. This lever will a reliable one Holder of the second torsion spring reaches, so that in a cost effective manner and way the torsion spring can be pre-assembled.

In a further embodiment, the lever is in the open position of the switching flap assembly against the first stop limiting the stop, which is formed as a projection on the outer wall of the housing of the air intake duct system. Also by this design flow influences are avoided by stops within the air intake duct and at the same time the lever of a dual function, since it now serves both as a stop surface and on the other hand as a holder for the end of the torsion spring. This will cost by otherwise necessary to be mounted on the shaft Saved stops.

In an alternative embodiment the lever in the open position of the switching flap Association against the first the angle limiting stop, as a projection on an inner wall of the housing is formed, whereby the assembly of the flap device in the housing as well simplifies the connection of the actuator at the shaft passage become.

By these embodiments is thus at low cost Way realized a counterforce to the flow forces, so that a safe operation of the switching flap association even with relative small sized electric motors is achieved, with unfavorable forces the storage of the switching flap Association can be avoided.

embodiments inventive switching flap actuator are shown in the figures and are described below.

1 shows a side view of a variable-length air intake duct system with switching flap with a symbolic representation of a arranged on the switching flap spring.

2 schematically shows a sectional view of the short-circuit channel region with switching flap under arrangement of a torsion spring according to the invention.

This in 1 illustrated air intake duct system 1 consists of several consecutively arranged Einzelansaugkanälen 2 which is substantially helical about a collection inlet channel 3 are arranged. In the figure is a single air intake duct 2 shown cut. Over a first opening 4 There is a constant fluidic connection between the collection inlet channel 3 and the single intake duct 2 , A second opening 5 is from a flap body 6 dominated, in its open position a short-circuit channel 7 free, over which air on a shorter way to the cylinder head 8th can get. The switch body 6 is on a valve shaft 9 arranged at least rotationally fixed, on which also further switching valve body 6 for enabling the short circuit channels of the other individual intake ducts 2 are arranged. This flap body 6 form with the switching valve shaft 9 a switching flap bandage 10 , which can be made in one piece by injection molding, for example. The switching valve shaft 9 stands with one outside the individual intake and on a housing 11 of the air intake duct system 1 attached actuating unit, not shown in such a connection that the actuator unit, the switching valve shaft 9 and thus the switch valve bodies 6 can set in rotation, in the present embodiment, the switching valve body 6 in the single intake duct 2 extends, which is a force on the valve body 6 effected in the closing direction.

A first end position of the switching flap association 10 , in which the short-circuit channel 7 is released by a first stop 12 Are defined. This stop 12 is in 2 shown schematically and is by a protuberance 13 on the outer or inner wall of a housing 11 the air intake device 1 educated. The second stop 14 for limiting the closed position of the switching flap association 10 is through the the shorting channel 7 bounding walls 15 formed, against which the switch valve body 6 in its second, the short-circuit channel 7 occlusive end position is present.

According to the invention the switching flap 6 now by a spring 16 acted upon in the opening direction with a force. In the 1 illustrated symbolic representation by means of a coil spring 16 that are in the air intake duct system 1 is arranged and their first end 17 on an inner wall of the housing 11 of the single intake duct 2 and its second end 18 on the valve body 6 is fixed, the function fulfills an additional opening force on the switching flap 6 to create. Preferably, this spring 16 however as in 2 shown as a torsion spring 16 executed so that occurring lateral forces on the bearing, not shown, the switching flap Association 10 be avoided.

The torsion spring 16 relies, as in 2 to recognize, with a first end 17 against a lead 19 which is attached to an outer wall or an inner wall of the housing 11 of the air intake duct system 1 is trained. Accordingly, the torsion spring 16 either inside or outside the channels 2 . 3 . 7 arranged. For preloading the torsion spring 16 is her second end 18 against a lever 20 on, at least rotatably on the switching valve shaft 9 again outside or inside the case 11 is arranged. In both versions, the switching flap Association 10 prestressed in the air intake duct system 1 be introduced. The lever 20 stands in operative connection with the first stop 12 so that the end position of the flap 6 in open position by applying the lever 20 against the attack 12 is limited.

Both in the closed and in the open position of the switch valve assembly 10 in the short-circuit channel 7 acts in the opening direction acting flow force in the air intake duct system 1 on the valve body 6 in such a way that a normally designed actuator would no longer be able to the switching flap Association 10 to move in the closing direction or to keep in the open position, without overheating of the drive motor would be the result. By the bias with the help of the torsion spring 16 However, a counterforce is generated, which in all positions of the switching flap Association 10 is effective, so that the force required to reset the switching flap 6 can be chosen significantly lower and thus the actuator can be performed cheaper, especially in such an embodiment, only one force of the actuator in the closed state in the closing direction must be applied. To open the flap 6 or to keep the flap open 6 the spring force is substantially sufficient, so that for this position or movement of the flap 6 no force has to be applied by the actuator.

Consequently will be a cost effective realized to be realized switching flap device, which with simple means ensures the reliability of the system.

amendments in terms of the structural design and arrangement of the spring on the housing of the air intake duct system are conceivable without departing from the scope of the main claim.

Claims (6)

Switching flap device for a variable-length Luftansaugkanalsystem with a switching flap assembly comprising at least one switching valve shaft and a plurality of on the switching valve shaft at least rotatably arranged switching flap body, wherein the shaft of a setting unit is set in rotation such that the switching flap against a first stop limiting a stop in an open position of A switching flap body for releasing a short-circuit channel between a collecting inlet channel and Einzelansaugkanälen the Luftansaugkanalsystems and against a second actuating angle limiting stop in a closed position of the switching flap body for closing the short-circuit channel is movable, characterized in that a spring ( 16 ) the switching flap association ( 10 ) is acted upon by a force acting in the opening direction. Switch flap adjusting device according to claim 1, characterized in that the spring ( 16 ) one around the shaft ( 9 ) arranged torsion spring is. Switch flap adjusting device according to claim 2, characterized in that the torsion spring ( 16 ) outside the channels ( 2 . 3 . 7 ) of a housing ( 11 ) of the air intake duct system ( 1 ) and a first end ( 17 ) of the torsion spring ( 16 ) against a lead ( 19 ) is applied, which on a wall of the housing ( 11 ) of the air intake duct system ( 1 ) is arranged. Switch flap adjusting device according to claim 3, characterized in that a second end ( 18 ) of the torsion spring ( 16 ) against a lever ( 20 ), which at least rotatably on the shaft ( 9 ) is arranged, is applied. Switch flap adjusting device according to claim 4, characterized in that the lever ( 20 ) in the open position of the switching flap association ( 10 ) against the first stop limiting the setting angle ( 12 ), which as a protuberance ( 13 ) on an outer wall of the housing ( 11 ) of the air intake duct system ( 1 ) is trained. Switch flap adjusting device according to claim 4, characterized in that the lever ( 20 ) in the open position of the switching flap association ( 10 ) against the first stop limiting the setting angle ( 12 ), which as a protuberance ( 13 ) on an inner wall of the housing ( 11 ) is trained.