EP1694553A1

EP1694553A1 - Device for producing the movement of a spoiler

Info

Publication number: EP1694553A1
Application number: EP04801150A
Authority: EP
Inventors: Sepp Steffen
Original assignee: Prospective Concepts AG
Current assignee: Prospective Concepts AG
Priority date: 2003-12-17
Filing date: 2004-12-09
Publication date: 2006-08-30
Also published as: WO2005058677A1

Abstract

Disclosed is a spoiler (8) for a vehicle, which can be moved with a pneumatic actuator. Chambers (2) in the actuator are filled with and impinged upon by air, whereby said chambers change their form and lift the spoiler (8). Guide means with fixed parts (14, 14a) and movable parts (15) guide the movement and determine the resting and operating position of the spoiler (8). The guiding means are slightly movable due to the fact that they run on rollers (18, 18a) mounted on axles (16) in slots (17, 17a). The spoiler (8) is moved back by means of a spring (26).

Description

Device for generating the movement of an air guiding device

The present invention relates to a device for generating a spoiler device in a vehicle according to the preamble of claim 1.

The closest prior art is EP 1138582 (D1). It is disclosed by means of a drive means movable air guiding device. Wherein a drive device comprises a motor and a hydraulic cylinder with which telescopic displays can be moved in and out.

The hydraulic cylinders, motors and telescope displays are robust and heavy components. The drive units take up space; a in vehicles, especially in sports cars, from the beginning only limited good.

The object of the present invention is to disclose a device for moving an air guiding device, which is light and space-saving, ie takes into account the usually narrow spatial conditions in a vehicle and helps to minimize vehicle weight.

The solution of the problem is reflected in the characterizing part of claim 1 with respect to their essential features and in the further claims with respect to further advantageous properties. To move an air deflector, one or more pneumatic actuators may be used. An actuator is constructed of at least one air-inflatable textile chamber and at least one textile flag attached thereto. If air is pressed into the chamber, it is filled and deformed. If the actuator consists of several chambers and flags, it deforms like a fan when filled. The movement of the spoiler is performed. On the spoiler plate-like guide means are mounted with a slot, so that in the slot rollers or axles can easily run.

The actuator according to the invention will be described and explained in detail with reference to the following figures. Show it

1a, b an empty and a filled actuator in side view,

2 a textile layer of an actuator in plan view,

3 is a perspective of a guide means,

4 shows a part of the guide means in side view,

5a, b, a first embodiment of a spoiler device in idle and in operating position,

Fig. Βa, b, a second embodiment of a spoiler device in idle and in operating position.

FIGS. 1a, b show a pneumatic actuator 1 according to the invention in the idle and in the operating position. The actuator 1 is constructed here, for example, eight chambers 2 and the same number of flags 3. The actuator 1 is arranged between a base plate 4 and a cover plate 5. The two plates are hinged together with a hinge 6. If the chambers 2 are filled with air, they deform and lift the movable cover plate 5 on one side. In Fig. 1b is clearly seen that the flags 3 each run from a chamber 2 in an area near the hinge 6. Of course, the flags 3 can also be attached in a different way to the chambers 2 or to each other. Essential to the invention is that they absorb tensile forces and keep the chambers 2 in their intended positions. As material for the chambers 2 as well as the flags 3 are textile materials or films. The materials should preferably be less expansible and additionally airtight for the chambers 2. Alternatively, it is also possible to use two materials each having one of the properties in a two-layer structure. The outer, low-stretch material is then loaded with an airtight bladder. For example, PU coated Kevlar is suitable or the same materials in two layers. On the cover plate 5, a rolling element 7 is arranged. This makes it possible for an air guiding device 8 to move during lifting in addition to a movement component parallel to the cover plate 5. Instead of the rolling element 7, a slider or other means known in the art can be used. Also, the rolling element 7 or its corresponding element can be arranged on the spoiler 8 itself and move on the cover plate 5. 2 shows the development of an inventive actuator 1 with a pad 2 and a flag 3. If the pad and the flag made of the same material, pieces of the shape of the outline of this settlement can be cut from a textile material. The area A is then folded onto the area B and the areas A, B are connected to each other along a connection point 10a. The area within the connection point 10 then forms the chamber 2 which can be filled with air. In order to obtain an actuator 1 as in FIGS. 1a, b, a plurality of such cushions 2 with lugs 3 are placed on top of each other. In such an actuator 1, each chamber 2 must be individually ventilated. If the chambers 2 are to be connected to one another, for example, the connection point 10b of the folded-over region A can be connected to the connection point 10b of the region B of a further overlying development. A hole 11 then serves the air as passage from one to the next chamber. Such a constructed actuator 1 only needs to be aerated and vented in one place. It essentially consists of a part 14 fixed to the motor vehicle, for example, and a movable part 15 to be connected, for example, to the air guiding device. Axles 16 are for example attached to the fixed part 14 and pass through a circular arcuate slot 17 of the movable part 15. On the upper and lower boundary of the slot 17 run the rollers 18 shown in Fig. 4, which are mounted on the axes 16, as on rails. As shown in Fig. 4, the two outer rollers 18 run on the lower part of the boundary of the slot 17 and the middle roller 18 on the upper part of the boundary. The points of contact between rollers 18 and edge thus form a triangle. This ensures that the movable part moves along a predetermined line and the rollers can rotate. A guide means designed in this way runs extremely easily and hardly opposes the pneumatic actuator 1 with frictional forces. Guide means 13 may be designed in many embodiments. For example, two, more preferably three or more, rollers may run on the outer edge of a moving part running between them like rails. Also, depending on how the shafts 16 and rollers 18 are arranged, the movable parts 15 can only be displaced along straight, arcuate or arbitrarily curved lines. Instead of a guide means 13 with a fixed part 14 and a movable part 15, a guide means 13 constructed of joints and levers may also be used, for example a four-bar mechanism as shown in Fig. 6a, b. It is essential for the present invention that the movement runs along a predetermined line from an initial position to an end position, if possible without opposing forces to the pneumatic actuator 1.

FIGS. 5a, b show an air guiding device 8 in the rest position and in the operating position. The interaction of the pneumatic actuator 1 with the guide means 13 is also shown. From the pneumatic actuator 1, only the chambers 2 are shown. At a point C, the rolling element touches the idler 8 in the rest position. The front end of the spoiler 8 is located at a point E. Now, when the pneumatic actuator 1 is exposed to air, it lifts the spoiler 8 at the rear, and the movable part 15th the guide means 13 now extends in such a way that the spoiler 8 also slides to the rear, and the rolling element 7 is in the operating position at a point D. The front end of the spoiler has been removed from the Point E moves to a point F. In order to forcibly guide the movement of the air guiding device, preferably the movement of the front end of the air guiding device from the point E to the point F is performed. For example, this can be done in a simple manner, as shown in FIGS. 5a, b, with a roller 18a running in a slot 17a of a stationary part 14a, but also knee joints or guide means 13 with movable parts 15 are according to the invention. Other solution forms for the guide are known in the art. With the leadership of the front and rear end of the spoiler 8, their position is precisely defined at each moment. In the fully extended operating position of the spoiler, the pressure in the chambers can be further increased. This ensures that at least one of the rollers 18, 18a is pressed against the end of the slot 17, 17a and the air guiding device braces.

For retracting the spoiler device in its rest position, for example, a restoring forces causing spring 26 can be used, which is stretched by the extension. With this restoring force, the air is pressed out of the chambers and the air guiding device is then moved into its rest position.

FIGS. 6a, b show the same air guiding device 8 as in FIGS. 5a, b, but the guide means 13 are realized with a four-link transmission. The four-bar linkage is constructed of the two levers 20 and the four joints 21a, b, the two joints 21a being stationary. With, for example, end stops 22, the pivotal movement of the lever 20 can be limited and the operating position can be determined. An additional admission of the chambers 2 thus also leads to a bracing of the Lufleitvorrichtung 8 in its operating position. Further, for example, a rod 24 is articulated on one of the levers 20. At the second lever 20, the rod 24 extends through a retaining device 23. During movement from the rest position to the operating position, the rod 24 moves in the retaining device 23. If the rod 24 is locked with the retaining device 23, the spoiler 8 can also in a Intermediate position to be aspired. Each intermediate position can also be the operating position. The retaining device 23 may, like the actuator 1, also be operated pneumatically. It is also possible to equip the joints 21a, b with means for locking. Such locking means are known in the art and included in the inventive concept. It is also possible, for example, to equip the fixed parts 14, 14a of FIGS. 5a, b with a retaining device. Thus, for example, the movable part 15 can also be locked and braced in an intermediate position.

List of reference numbers

1 actuator

2 chamber

3 flag

4 base plate

5 cover plate

6 hinge

7 rolling element

8 air guiding device

10 junction

11 holes

13 guiding means

14, 14a fixed part

15 movable part

16 axes

17, 17a slot

18, 18a roles

20 levers

21a, 21b joint

22 end stop

23 retaining device

24 pole

26 spring

Claims

1. Device for generating the movement of an air guiding device (8) on motor vehicles, the device comprising means for building up pressure and its transmission, as well as a restoring force, and guide means (13) for the movement, characterized in that at least one pneumatic There is an actuator (1) with which the air guide device (8) can be moved, the pneumatic actuator 1 essentially consisting of at least one chamber (2) which can be inflated and pressurized with air, and at least one flag (3) which is attached to the chamber (2) and the motor vehicle.

2. Device for generating the movement of an air guiding device on motor vehicles according to claim 1, characterized in that the chambers 2 and 3 flags are made of textile materials or films.

3. Device for generating the movement of an air guiding device on motor vehicles according to claim 1, characterized in that the pneumatic actuator (1) is constructed from a plurality of chambers (2) and flags (3), the chambers (2) being filled individually and pressurized or can be connected to each other.

4. Device for generating the movement of an air guiding device on motor vehicles according to claim 1 or 2, characterized in that the at least one flag (3) is attached to the at least one chamber (2) and the motor vehicle in such a way that when the chamber is filled ( 2) is loaded on train.

5. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding existing patent claims, characterized in that the actuator is arranged between a base plate (4) and a cover plate (5), and the base plate (4) can be connected to the cover plate by a hinge (6).

6. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, that a rolling element (7) is present and on the cover plate (5) or on the air guiding device (8) is attached.

7. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, characterized in that two or more actuators (1) are present.

8. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, characterized in that the guide means (13) of the movement guide the air guiding device (8) in a forced manner.

9. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, characterized in that the guide means (13) optionally consist of a fixed part (14) and a movable part (15) with a slot (17) for rollers (18) or axles (16), - a fixed part (14a) with a slot (17a) for rollers (18a) or axles (16a), - joints (21a, 21b) and levers (20).

10. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, characterized in that at least one guide means (13) via a retaining Has device (23) and the holding device such as the actuator (1) can be operated pneumatically.

11. Device for generating the movement of an air guiding device on motor vehicles according to claim 10, characterized in that a rod (24) runs through the holding device (23) and can be locked by this.

12. Device for generating the movement of an air guiding device on motor vehicles according to one of the preceding claims, characterized in that a spring (26) for generating the restoring force is present, with which the air guiding device (8) is moved back into its rest position.