EP1116849A2 - Driving assembly for swingable parts on vehicles - Google Patents

Abstract

An actuation arrangement for hinged components on vehicles such as rear covers, trunk lids, covers for convertible tops or convertible top components themselves, having at least one fluid drive engaging the hinged component directly or indirectly, the fluid drive of the arrangement driving a rotary shaft to realize a constant moment at a small mounting space as well as a suitable configuration for principally any rotation angle. The rotary shaft, which lies in the swiveling axis of the hinged component, is non-rotatably connected to the hinged component, possibly via an interconnected lever.

Description

The invention relates to an actuation arrangement for pivotable parts on vehicles, especially for the operation of rear, trunk or convertible top covers or convertible top parts itself, with at least one directly or indirectly attacking the pivotable part Fluid drive.

For the actuation of movable, in particular also pivotable vehicle parts, fluid drives in the form of working cylinders are conventionally used, which are hinged at one end to the body of the vehicle and at the other Attack the end, usually the outer end of the piston rod, on the part to be moved. This Solution is for the rear and engine compartment covers, for the covers of convertible tops, but also for the sections of the tops themselves which can be pivoted relative to one another, in particular with hardtops or similar constructions, common. Has this solution but some disadvantages, such as that due to the kinematics of the pivotable parts Beginning and end of the movement of which the greatest forces are required, this requirement but due to the possible arrangement of the working cylinders in the area of Swivel axes cannot be done enough. Because of the deflection that is also generated torque during the rotary movement is not constant. Furthermore, these drives can be used and required practically only for swivel angles smaller than 180 ° relatively much installation space. This last disadvantage is particularly evident when a cover is provided the entire drive arrangement to avoid injuries or jamming of foreign bodies particularly clearly and is particularly useful. But Even with folding roofs there is relatively little space for actuating arrangements in the head space Available, so that multiple foldable variants in particular with stable and therefore heavy Parts could not be operated so far because the necessary strong and at the same time large swiveling cylinders could not be installed there.

It was therefore the object of the present invention to provide an actuating arrangement for the of the type described at the outset in such a way that the disadvantages mentioned are avoided become. A construction is to be created which is constant with a small construction volume Generated moment and is suitable for any angle of rotation in principle.

To achieve this object, the actuation arrangement is characterized in that that the fluid drive drives a rotary shaft which is in the pivot axis of the pivotable Part lies and is rotatably connected to the pivotable part, possibly via one intermediate lever. This becomes complex and takes up a lot of installation space Arrangements with lever systems or the like avoided. The lever of the invention The arrangement merely represents an extension that facilitates the coupling of the component. With the smallest construction volume - and therefore also for example in the head area of roofs - Can pivot movements of the operated vehicle part over a substantially any angular range can be made.

According to a first embodiment, the fluid drive has a fluid motor, the Output shaft is connected to a rotary shaft for the pivotable part, if necessary via a preferably mechanical transmission. This variant enables a compact and structurally very simple execution.

A further simplification, reduction in the number of necessary components and The arrangement can be downsized if the fluid drive has a fluid motor, whose output shaft is also the rotary shaft for the pivotable component.

The fluid drive advantageously has a rotary piston engine with at least one, by means of the pressure medium in a housing between two stops around an axis of rotation pivotable rotary piston, the axis of rotation of the or each rotary piston preferably is also the rotating shaft. This can create a large effective area high forces can be achieved to attack the pressure fluid and with a compact design.

The piston of the rotary piston engine is preferably in the form of at least one Wing formed, which wing is rotatably held on the axis of rotation.

Functionally and in terms of achieving the necessary tightness of the work spaces of the The actuating arrangement according to the invention is simpler when the fluid cylinder is in accordance with a further feature of the invention the fluid drive has a linear working cylinder, its piston rod during its linear working stroke via a mechanical gear the rotating shaft twisted. Linear drives are easy to manufacture and operate and also ideally suited for frequent operation over long periods of time. With a correspondingly large Cross section of the piston, the achievable forces are sufficient for all applications high.

According to a very simple and reliable, preferred embodiment the piston rod is at least at its outer end in the form of a rack trained or stands with a rack in tension and pressure resistant connection, and a pinion engages in the toothing of the rack, which pinion rotates on the Rotary shaft is attached.

For an arrangement of the above actuation arrangement in an outer edge or Corner area of the component to be moved, such as the corners of a vehicle Rear or convertible top cover is advantageously provided that the pinion on one Fixed end of the rotating shaft and the second end of the rotating shaft with the movable part is rotatably connected. This is a coupling of the movable part from only one Direction transverse to the longitudinal axis of the actuating arrangement and thus its installation in the Side areas of the vehicle allows.

According to a further feature of the invention, the rack is in a guideway guided in the longitudinal direction, the guideway preferably in the direction of the Sprocket is adjustable adjustable, preferably by means of screws. So the game can be in the teeth are precisely adjusted, minimized if necessary or even avoided altogether.

The optimal protection of the actuation arrangement itself and thus an unimpeded and trouble-free operation and the protection of users from injuries or other objects damage from the actuating arrangement is given if the Piston rod, the cooperating section of the rotary shaft and all intermediate Parts are under a cover.

Such protection by a cover can be produced in a simple manner, if the cover is an extension of the housing or tube of the fluid cylinder is.

Another mechanical implementation of the movement of any fluid drive in a suitable rotary movement of the rotary shaft is possible in that the fluid motor and the rotary shaft are connected via a mechanical worm gear, these Arrangement of relatively small cross-sections of the arrangement transverse to its longitudinal axis and the implementation of rotary movements with high revolutions in slower and over one allows a smaller angular range for rotary movements.

Orientation of the rotating shaft in a larger angular range with respect to the Longitudinal axis of the fluid cylinder or the output shaft of each fluid motor and also an offset between these components is possible if the fluid motor and the rotary shaft over a bevel gear transmission are connected.

The actuating arrangement according to the invention can be particularly advantageous for replacement be used by conventional hinges when the rotating shaft is the pivotable Part at least partially also carries, directly or indirectly via at least one with which pivotable part of fixed lever. In addition to the smaller space requirement of the fluid drive Compared to conventional hinges, for example, their hinges can often be less favorable Avoided power and a better and more even movement for the pivotable part can be reached.

The actuation arrangement according to the invention can advantageously be used for actuation be used by at least part of a convertible top, the then Fluid drive forms the main bearing of the convertible top. This saves space and the Movement of the convertible top can be improved.

According to a further feature of the invention, a rotation sensor is provided and with preferably the rotary shaft or the axis of rotation of the fluid motor or rotary piston motor coupled, so that the movements of the actuator assembly in a simple and accurate manner actuated component determined and for example to control the pressure medium or other, depending on the actuated component and its position Movements can be used.

In the following description, the invention is intended to be based on preferred exemplary embodiments, which are illustrated in the accompanying drawings.

1 shows a schematic representation of a fluid drive according to the invention in use for a trunk lid, Fig. 2 is a schematic representation two fluid drives according to the invention in a convertible roof, FIG. 3 is one Top view of a special, preferred embodiment for an inventive Fluid actuator with linear working cylinder, rack and pinion, Fig. 4 is a longitudinal section through the fluid drive of Fig. 3, Fig. 5 shows a sectional view transverse to the longitudinal axis of the 3 at the level of the rotary shaft, Fig. 6 is a section through an inventive Actuator assembly in the form of a rotary piston engine and Fig. 7 is a section along the line D-D of FIG. 6.

1, at least one fluid drive D is attached to the body of the vehicle F, in the example shown in the area of the upper front end of the rear fender, wherein the rotary shaft W of the fluid drive D in the pivot axis A of the trunk lid K lies and carries his weight at the same time. A trunk lid K directly supporting and the force of the fluid drive D transmitting lever H with the rotating shaft W non-rotatably connected. The fluid drive D advantageously replaces the conventional ones Hinges, which often have poor storage, take up less space a, because the hinge can be completely replaced by the fluid drive. Of course can the actuating arrangement according to the invention but also without a load-bearing Function in addition to conventional hinges or the like.

The fluid drive according to the invention can also be used to actuate a convertible roof can be used, as shown in FIG. 2 schematically. For example, there is a first one Fluid drive D1 in the area of the fender of the vehicle F on its body as Main bearing for the convertible top V1, V2 fastened and moved via its rotating shaft W1 first convertible top part V1 about its pivot axis A1, which coincides with the axis of the rotary shaft W1 coincides. A second roof part V2, here the actual roof of the vehicle, is over the pivot axis A2 can be pivoted at the upper, front end of the first convertible top part V1, why advantageous because of the small construction volume and the constant moment A second fluid drive D2 is provided over the entire angular range of the pivoting is. Whose rotary shaft W2 lies exactly in the pivot axis A2 for the second convertible top part V2. In convertibles, the fluid drive can advantageously be the main bearing of the convertible top and all related moving parts form, here the advantages of Space saving and the favorable torque curve are particularly important.

An embodiment for a fluid drive D according to the invention with a linear Fluid motor is shown in FIGS. 3 to 5 and is explained below. In a cylinder barrel 1 of preferably circular cross section is in a central region Cover 2 of a fluid cylinder formed. The cylinder tube 1 further advantageously has an extension 3, which forms a housing adjoining the cover 2. On the the extension 3 opposite side of the lid area 2 is a cylinder bottom 4 provided and connected to the cylinder tube 1, this bottom 4 at most can be made in one piece with the cylinder tube 1. Passages 5 in floor 4 and Cover area 2 can preferably pressurize the working spaces of the fluid cylinder Hydraulic oil, supplied or withdrawn from it. Through this pressure medium Piston 6 axially displaced within the cylinder tube 1 and thus also with the piston 6 firmly connected piston rod 7, which is sealed through the cover area 2 is and protrudes into the housing formed by the extension 3.

This extension 3 is at the same time a guide or contains a guideway 8 for a toothed rack 9, which is connected to the piston rod 7 in a tensile and compressive manner, for example via a releasable connection 10 in the form of a plate-shaped end of the piston rod 7, which is in a groove with a narrow slot in the rack 9 transversely to the longitudinal direction is held displaceably. There will also be tension between these two parts so avoided.

The teeth 11 of the rack 9 are in engagement with teeth 12 of a pinion 13, the is rotatably attached to the rotary shaft W. The rotary shaft W is in two tab-like parts 14 of the extension 3 rotatable and transversely to the longitudinal axis of the cylinder tube 1 and thus also the piston rod 7 is mounted and preferably has a toothing at its outer end 15 so that a lever H is rotatably connected to the rotary shaft W in a simple manner can be. The non-rotatable connection could also be applied to any other form and / or non-positively produced.

Another advantage of the fluid drive is - in every application - the simple one Connection to a rotary sensor 21, which is used to control and monitor the movement the pivotable parts on the vehicle with the control electronics of the actuation arrangement can be connected. As shown in FIG. 3, this rotary sensor 21 is directly connected to the rotary shaft W or coupled to the output shaft of any fluid motor or acts on these parts together.

5 is a lever H coupled to the rotary shaft W. can be seen, as is the rotatable mounting in the tab-like parts 14. Furthermore to recognize the guideway 8, the one open to the rack 9 trapezoidal Has a cross section and interacts with the trapezoidal underside of the toothed rack 9, to safely prevent the rack from twisting or canting and the To keep rack 7 in engagement with the pinion 13. The guideway 8 is from the extension 3 extractable, whereby the rack 9 is lowered, such the releasable connection 10 solved and the rack 9 can be separated from the piston rod 7. Operational the guideway 8 in the extension 3 by several worm screws 16 held and fixed. By means of the screws 16, the guideway 8 can also pass through the longitudinal axis of the screws 16 - and also the bearing of the guideway 8 - predetermined Direction can be adjusted. So that the game between guideway 8 and pinion 13 can be set precisely and advantageously minimized.

Of course, the guide track for the rack 9 can also from the inside the extension 3 itself or from an insertable guide together with one Part of the inner surface of the extension 3 are formed. Also the cross-sectional and Tooth shape of rack 9 and / or pinion 13 can meet the respective requirements be modified. Other mechanical ratios between the rack 7 and rotary shaft W are possible, for example worm gear or bevel gear, which are particularly advantageous if the rotary shaft W is not exactly vertical should stand on the longitudinal axis of the fluid cylinder, but angles not equal to 90 ° or dislocations between piston rod 7 and rotary shaft W are required.

Show an actuator assembly with fluid drive D in the form of a rotary piston cylinder 6 and 7. Here, a shaft is rotatably mounted in a housing 20, which at the same time is the rotary shaft W of the fluid drive D and - as already described above was - preferably at one end protruding from the housing 20 with a Tooth 15 or a similar or functionally equivalent connection structure is provided. This toothing 15 is the indirect one - via an intermediate one Lever H - or direct connection of the fluid drive D to the pivotable Component V. On the rotary shaft W is a piston in the form of a inside the housing 20 Wing 17 mounted rotatably, which wing 17 the interior of the housing 20 in two work spaces divided. These working spaces on both sides of the wing 17 can be connected 18 and feed openings 19 (only one of them visible in FIG. 6) with the printing medium are applied, whereby the wing 17 is movable and thus the rotary shaft W twisted around its axis.

In addition to the variants described above and shown in the drawings in principle, all other types of fluid motors can be used, so that rotating working gear motors, vane motors or axial or radial piston motors or the linear-acting thrust piston motors, even without a piston rod, but on one Acting lever, which translates into a rotational movement of a lever with this lever connected shaft implements. The output shafts of the fluid motors can also the worm or bevel gear units and / or via sub or transmission gear units, preferably on a mechanical basis, with the rotating shaft (W) for the pivotable part (V) be connected, but they can also directly represent this rotary shaft (W).

Of course, not only a fluid drive can act on the rotary shaft W, but also several parallel drives can be provided, for example larger ones To be able to generate moments. For example, two linear drives can have separate drives Act on the gearbox on the rotary shaft or on the same gearbox to increase the attack generated moments. As another example, it would be conceivable for a pinion 13, a rotary shaft W on opposite sides of racks 9 is provided are, preferably parallel to each other, each of the piston rod 7 a linear Working cylinders, which are also preferably parallel to each other, are moved.

Claims (16)

Actuating arrangement for pivoting parts on vehicles, in particular for Operation of rear, trunk or convertible top covers or convertible top parts itself, with at least one directly or indirectly attacking the pivotable part Fluid drive, characterized in that the fluid drive (D) a Rotary shaft (W) drives which in the pivot axis (A) of the pivotable part (V) lies and is rotatably connected to the pivotable part (V), at most via an intermediate lever (H). Actuating arrangement according to claim 1, characterized in that the fluid drive (D) has a fluid motor, the output shaft with a rotary shaft (W) for the pivotable part (V) is connected, preferably via a preferably mechanical transmission. Actuating arrangement according to claim 1, characterized in that the fluid drive (D) has a fluid motor, the output shaft of which is preferred is at the same time the rotating shaft (W) for the swiveling part (V). Actuating arrangement according to claim 1, characterized in that the fluid drive (D) a rotary piston engine with at least one, by means of the pressure medium in a housing (20) between two stops around an axis of rotation has pivotable rotary piston (17), the axis of rotation of the or each Rotary piston is preferably also the rotary shaft (W). Actuating arrangement according to claim 4, characterized in that the piston the rotary piston engine is in the form of at least one wing (17), which wing (17) is rotatably held on the axis of rotation. Actuating arrangement according to claim 1, characterized in that the fluid drive (D) has a linear working cylinder (1-7), the piston rod (7) in their linear working stroke via a mechanical gear (9, 13) Twisted shaft (W). Actuating arrangement according to claim 6, characterized in that the piston rod (7) at least at its outer end in the form of a rack (9) is formed or with a rack in a tensile and pressure-resistant connection stands, and that a pinion (13) engages in the toothing of the rack, which Pinion is rotatably attached to the rotary shaft (W). Actuating arrangement according to claim 7, characterized in that the pinion (W) attached to one end of the rotating shaft (W) and the second end of the Rotary shaft is rotatably connected to the movable part (V). Actuating arrangement according to claim 7 or 8, characterized in that the rack (9) is guided in a longitudinal direction in a guideway (8) the guideway (8) is preferably adjustable in the direction of the pinion (13) is stored, preferably by means of screws (16). Actuating arrangement according to one of claims 6 to 9, characterized in that the piston rod (7), the cooperating section of the The rotary shaft (W) and all intermediate parts are under one cover. Actuating arrangement according to claim 10, characterized in that the cover an extension (3) of the housing or tube (1) of the fluid cylinder is. Actuating arrangement according to one of the preceding claims, characterized in that that the fluid motor and the rotary shaft (W) have a mechanical Worm gears are connected. Actuating arrangement according to one of claims 1 to 11, characterized in that that the fluid motor and the rotary shaft (W) via a bevel gear are connected. Actuating arrangement according to one of the preceding claims, characterized in that that the rotary shaft (W) at least the pivotable part (K, V) partly also carries, directly or indirectly via at least one, with the pivotable part (K, V) fixed lever (H). Actuating arrangement according to one of the preceding claims for the actuation of at least part of a convertible top, characterized in that that the fluid drive (D) forms the main bearing of the convertible top. Actuating arrangement according to one of the preceding claims, characterized in that that a rotation sensor (21) is provided and preferably with the Rotary shaft (W) or the axis of rotation of the fluid motor or rotary piston motor is coupled.

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