EP1223345A2 - Actuation arrangement for parts of vehicles pivotable about an axis - Google Patents

Abstract

Operating arrangement for motor vehicle components rotating about an axis of rotation (2), e.g. doors (1), comprises at least one working cylinder arrangement (3) for both directions coupled to the rotating component. In a connecting line between the working spaces (4, 5) of the working cylinder arrangement, at least one relay valve (23) completely unblocking or blocking this connecting line is arranged in series with a servo-valve (24). Preferred Features: At least two parallel connecting lines (16, 17) are provided between the working spaces of the working cylinder arrangement. Two consecutively opening check valves (18, 19) are arranged in one connecting line (16), and two consecutively closing check valves (20, 21) are arranged in the other connecting line (17). A further connecting line (22) between the two parallel connecting lines and containing the relay valve and the servo-valve branches off into each of the parallel connecting lines between the two lots of check valves.

Description

Actuating arrangement for parts on vehicles pivotable about an axis of rotation, especially for doors, with at least one with the pivoting part coupled working cylinder arrangement for both swivel directions, a working fluid system supplying the working cylinder arrangement Supply lines to each work area of the working cylinder arrangement, which Supply lines the working cylinder arrangement can also be locked with the reservoir connect for the working medium, and one acting on the working fluid system Control circuit, with at least one connecting line in the working fluid system between the working spaces of the working cylinder arrangement acting in the opposite direction and a bias valve are provided.

For the operation of, for example, tailgates, convertible top covers as well Vehicle doors have been proposed in many different configurations which working cylinder on the pivotable part, preferably linear hydraulic Attack cylinders, which are supported on the vehicle with their other end are. Even parallel cylinders, i.e. Cylinders in which the volumes of the work spaces are the same on both sides of the piston are used. On Hydraulic unit supplied, controlled via a simple on-off switch or more complicated electronic control units, the working spaces of the or each working cylinder alternating with the working medium and thus causes the automatic Movement of the pivotable part. Furthermore, it has already been proposed that sensors monitor the movement of the pivotable part, for example what via linear displacement sensors on the working cylinder, rotary sensors on the Axis of rotation or pressure sensors can be realized in the system of the working fluid can. Not only the reaching of the end position and the hydraulic unit can be signaled can be controlled accordingly, but there can also be a pinch protection or collision protection during the normally unobstructed swivel movement will be realized. Finally, through more elaborate electronic and fluidic switching of the actuation arrangement also the kinematics of the Articulation of the pivotable component are taken into account, which the on Component attacking forces to be overcome by the actuating arrangement affected. Bias valves have been proposed for this, for example the maximum system pressure during the automatic actuation of the moving Limit vehicle part and also a stop function in the event of failure or deliberate stopping of the hydraulic system. Finally, emergency operations were also possible so that in the event of a power supply failure, the pivotable Part can be moved manually.

Different circuits had to be used for all of these functions be constructed and it was previously not possible to use all the functions mentioned to combine a simply constructed and economically manageable system, which is also so flexible that any other functions without change the fluidic connection are possible. In addition, in certain cases higher kinetic energy of the actuated vehicle part than that of the Design of the preload valve corresponds, for example in the case of vehicle doors or - fold when the load is pulled by tilting the vehicle. If here the Stop function is initiated, i.e. the supply of working medium through stopping the pump can also be stopped due to the increased kinetic energy the preload valve is depressed and thus opened so that the Vehicle part still moved in the original sense. Since moreover in the In most applications, the preload valves have two stages - with a lower second Pressure stage - are designed, the back pressure drops further and the vehicle part can no longer be stopped in its movement.

The object of the present invention is therefore an actuation arrangement of the type specified at the beginning, in which with a single, simply constructed and a safe one with a small number of complex and expensive components Stop and hold function guaranteed, regardless of the type of used Biasing valves. Any combination of automatic actuation, auxiliary power-assisted manual actuation, purely manual actuation - also in the event of a power failure of the automatic actuation arrangement - as well as protective functions such as pinch protection and holding function in every moment Location can be realized after a power failure.

To solve this task in its simplest form is according to the basic concept the present invention provided that in the at least one connecting line between the working spaces of the working cylinder arrangement at least a switching valve that completely releases or blocks this connecting line is used in series with a preload valve. By hiring the Preload valve to a certain maximum pressure, that of the for the actuation necessary forces of the vehicle part can be determined by alternative supply the opposing working spaces of the working cylinder arrangement, whether this is due to opposing single-acting cylinders or a double-acting cylinder is realized, the automatic actuation of the pivotable part on the vehicle. The preload valve blocks the direct connection between the opposing work spaces the working cylinder arrangement in at least one direction. If now the movement of the vehicle part to be stopped in this direction is in addition to Switching off the hydraulic supply brought the switching valve into the blocking position and thus the connection between the opposing working spaces is secure shut off, so that despite the possibility of overpressing the preload valve no shifting of working medium between the opposing ones Working spaces is possible. The working medium can be due to the reservoir of the blocked connecting lines, so that the vehicle part, about a door or flap, is securely held in the current position. The switching valve can then be returned to the open position. so that manual actuation - by overpressing the preload valve - enables is. All of the switching functions of the switching valve mentioned can also be achieved by a Program can be realized in the control unit of the hydraulic system, which program et al also polls controls via which the user can select the desired ones Enter functions and movements for one or more vehicle parts can.

To the functionality described above in both directions of movement Realizing moving vehicle part is according to an advantageous development the invention provided that at least two parallel connecting lines between the working spaces of the working cylinder arrangement are available, in a connecting line two check valves open to each other are, two to be blocked in the parallel connecting line Check valves are used, and with another connecting line between the parallel connection lines that exist in each of the parallel connection lines branches between the two check valves and into which at least one that completely releases or blocks this connecting line Control valve is used in series with a preload valve. By the arrangement of oppositely oriented check valves in the parallel lines, which via the connecting line with the preload valve and the switching valve are connected - in connection with the activated hydraulic system - each one of the two workrooms can be supplied with the hydraulic medium while in the event of failure or deliberate shutdown of the hydraulic system, the connection between manufactured in opposite working spaces - and by the preload valve and the switching valve is controlled. When the connection between the work rooms is neither a pushing of the medium between the work rooms a manual shift into the reservoir is possible, which is due to the Locking the connecting line to the reservoir is guaranteed for this emergency. As a result, the component remains securely fixed in the current position.

According to a further feature of the invention it is provided that the The switching valve is designed as a normally open valve. This is the effect of Preload valve not hindered during normal operation and also during emergency operation after appropriate activation for the safe stop function the switching valve can only be brought into the closed position for a short time at most. Here is the Connection between the working spaces of the working cylinder arrangement complete locked and thus the otherwise automatically moving component safely in the current one Position held. Then the switching valve can, but does not have to, be opened again, i.e. switched off, so that for example a manual operation the door, tailgate or the like. Or an emergency operation with overpressing the Preload valve is enabled.

To ensure the safe holding function in a simple and safe way to be able to, the or each lockable connecting line branches to the reservoir of the most distant connecting line of the working cylinder arrangement from their work rooms from. This can also be used on the cylinder arrangement Part of the system precisely to the prevailing and possible pressure conditions can be coordinated and all valves can be optimally tailored to the requirements be designed.

To ensure manual operation even in the event of a power failure, According to an advantageous embodiment of the invention, the switching valve with a mechanically operated unlocking. This can be done directly or can be operated via a cable or the like, which is to be operated by the user Button or lever.

If according to another feature of the invention in the actuator assembly as described above, a similar double-acting cylinder is provided is, the two working spaces via the or each connecting line with each other and with the pump or when the corresponding line is unlocked are connectable to the reservoir, and its work spaces alternate from one Supply unit can be fed with working fluid is structurally special given simple solution to specifically manual operation and emergency operation to simplify that not for different volumes Hydraulic medium in the opposing working spaces of the working cylinder arrangement must be prepared.

In order to easily set up the entire system with great flexibility in the realizable functions and easier, with fewer components Achieving function is provided according to a further feature of the invention, that the supply unit contains a reversible pump, the two outputs of which connected to check valves that can be unlocked via the other outlet are, with both sides of the reversible pump with each other via a shuttle valve and are connected to a reservoir for the working fluid.

If advantageously a sensor for the vehicle inclination is provided and is connected to the control unit, can be used to control the switching valve in If the stop function takes into account all actuation or holding forces in Connection with the orientation of the vehicle.

If advantageously a sensor for the movement of the pivotable part of the vehicle and connected to the control unit can also be a changing moment on the moving path along the way Part are taken into account, for example, from changes in the load on the vehicle part or by hitting an obstacle.

The said changes as well as desired manual influences, for example the manual slamming of a normally automatically operated door, the manual one Initial impulse for the subsequent automatic movement of the respective Component or manual stopping an automatically initiated or in Actual operating sequence can be taken into account if according to a further feature of the invention between the working cylinder arrangement and Control valve provided at least one pressure sensor and connected to the control unit is.

Advantageously, many of the above functions are performed by an im Control unit stored program, which depends on the actuation a queried control element to stop the movement of the Part of the vehicle and possibly also at least the inclination of the vehicle, preferably also the opening angle of the pivotable part and possibly also that Pressure curve in the system, a control signal for, among other things, the switching valve is generated. The program control enables a wide variety of functions to be implemented possible. Of course, the control unit is advantageously program-controlled also the normal actuation control, i.e. asks controls such as buttons, buttons, handles on doors, vehicle flaps or the like Accordingly, it not only controls the switching valve, but also the supply system for the working fluid, especially the reversible pump and all necessary Valves and other components. The program can also be designed to do this that it is the rapid, essentially resistance-free throwing of the door, the flap or the like. In which the sliding connection between the each other leaves opposite working spaces of the working cylinder arrangement free or releases quickly after the switching valve is locked. The impulse to start this special function can be performed by querying and recognizing a change in route on the displacement or angle sensor or the actuation of the pawl it inside or outside, a switch, button or similar on the moving component be given yourself. Also the rapid increase in pressure due to manual Initiation of the movement can at most by the system pressure sensor to the Control unit must be reported and the connection released. Or the Movement of the working fluid in its circuit is monitored and faster Increased movement can be used as a detection signal for the control unit become.

In the following description, the invention is based on a special advantageous embodiment are explained in more detail. The shows Drawing figure a circuit diagram of a hydraulic system according to the invention for for example an automatic door drive for motor vehicles.

A door 1 as an example of an actuation arrangement according to the invention Movable vehicle part is about an axis of rotation 2 by means of, for example of a uniform double-acting hydraulic working cylinder 3 in opening and closing direction movable. These movements are caused by the loading of the two equally large work rooms 4 and 5, which provide volume compensation make avoidable between the two sides of the working cylinder 3 with Hydraulic oil causes, preferably the control of the work rooms 4 and 5 via a electronic control unit (not shown) is controlled. This Control unit asks, either by a stored or changeable stored in a memory Program or according to a fixed circuit, on the one hand a signal line from an operating element and also controls according to the stored Program or the predefined circuit on the one hand a subsequent valve and line arrangement to be explained in more detail, on the other hand Hydraulic unit, especially the motor of a reversible pump 6. The two sides the pump 6 are in turn on the one hand via a shuttle valve 7 with the tank 8 connected for the hydraulic oil, on the other hand over from the opposite Side via lines 9 unlockable check valves 10 with the working cylinder 3. In a connecting line between the two sides of the pump 6 is one Changeover valve 12 is used, via which the line under pressure in each case a proportional pressure valve 13 for limiting the system pressure with the tank 8 connected is.

In each of the lines 14, 15 from one of the sides of the pump 6 to each One of the working rooms 4, 5 of the working cylinder 3 is a pressure sensor (not shown) connected, which is also connected to the control unit stands, as well as at least one sensor for the vehicle inclination and a displacement sensor for the movement of the door 1. Instead of the with the advantageously linear Working cylinder 3 coupled displacement sensor could also be a rotary sensor on the Axis of rotation 2 or generally any sensor arrangement can be provided, which one Allows statement about the opening angle of door 1.

Between the lines 14 and 15 run parallel to each other and to the working cylinder 3 two connecting lines 16 and 17, in each of which two check valves 18, 19 and 20, 21 are used. The check valves 18, 19 are spring-loaded valves that are oriented in opposite directions. The blocking or opening direction is selected such that the valves 18, 19 in the direction of the connecting line Open 14 or 15 on the opposite valve. For the typically completely conventional check valves 20, 21 the opposite is true, i.e. that these valves 20, 21 from the connecting line 14, 15 to each opposite valve are blocked.

One branches between each pair of check valves 18, 19 and 20, 21 further connecting line 22 from which the two parallel connecting lines 16 and 17 connects together. In this additional connecting line 22 is now a normally open switching valve 23 in series with a bias valve 24 used. This switching valve 23, which is open in normal operation, is influenced in normal operation and in the case of manual actuation of the moving vehicle part 1 not the function of the preload valve 24, which is in the manual actuation is suppressed and thus the pushing of hydraulic medium between the Working rooms 4 and 5 of the working cylinder arrangement allowed. But should the door Tailgate or the like. 1 are safely stopped in the current position the switching valve 23 is energized, thus brought into the blocking position and thus the connection safely separated between workrooms 4 and 5. Then there too Block check valves 10 in the direction of pump 6 or reservoir 8 and the hydraulic oil therefore the door cannot be pushed back into these components 1 securely fixed in the current position. After stopping it can Switching valve 23 again immediately, advantageously by stopping its energization, in the open position to allow manual operation of the door, to allow the tailgate, the hood or the like. At most, the current supply of the switching valve 23 so that the lock on the connection between the work rooms 4 and 5 and thus the absolutely safe holding function for the actuated component 1 on Vehicle also until a new actuation of a control lever, switch or the like. are maintained.

If, on the other hand, via the query and the detection of a change in route on the displacement sensor, if necessary also recognizing the actuation of the pawl, a switch, Push button or the like, if necessary also on door 1 itself, in the control unit stored program detects a quick manual movement of the door, for example manual throwing is desired, the control unit prevents this Closing the switching valve 23 from the beginning. Also the rapid increase in pressure, determined by one of the system's pressure sensors or the detection of the Movement of the hydraulic oil can cause the switching valve 23 to remain open, whereby then the essentially free pushing of the hydraulic oil from one Work room 4, 5 in the other and thus largely from hydraulic influence free movement of door 1 is enabled.

Finally, in the drawings, in each of the connecting lines 14, 15 an arrangement of a throttle 25 and one from the pump 6 to the respective one Working room 4, 5 shown opening check valve. This arrangement 25, 26 serves to limit the speed of the outflow of the hydraulic medium to tank 8, while there is largely unobstructed supply of work spaces 4, 5 allowed by the hydraulic system 6, 9, 10.

In all cases in which the power supply to the pump 6 fails and an emergency operation is to take place or the energy supply is intentionally not active and the door 1 is to be operated manually, the check valves 10 block the Connection between working cylinder arrangement 3 and tank 8, so that the hydraulic medium over the connecting lines 16, 17 and 22 only between the opposite Workrooms 4, 5 can be moved. This shifting is - as explained above - via the bias valve 24 in connection with the Switch valve 23 affects.

Claims (10)

Actuating arrangement for parts on vehicles which can be pivoted about an axis of rotation (2), in particular for doors (1), with at least one common working cylinder arrangement (3) coupled to the pivoting part for both pivoting directions, one working fluid supplying the working cylinder arrangement (3). System with supply lines (14, 15) to each working space (4, 5) of the working cylinder arrangement (3), which supply lines connect the working cylinder arrangement (3) also lockably to the reservoir (8) for the working medium, and one to that Working fluid system acting control circuit, wherein in the working fluid system at least one connecting line between the working spaces (4, 5) of the working cylinder arrangement (3) acting in the opposite direction and a biasing valve (24) are provided, characterized in that in the at least one Connection line (16, 17, 22) between the working spaces (4, 5) of the working cylinder arrangement (3) at least one se connecting line fully releasing or blocking switching valve (23) is used in series with a preload valve (24). Actuating arrangement according to Claim 1, characterized in that there are at least two parallel connecting lines (16, 17) between the working spaces (4, 5) of the working cylinder arrangement (3), two non-return valves (18) which can be opened in a connecting line (16) , 19) are used, two non-return valves (20, 21) to be blocked in the parallel connecting line (17) being inserted, and a further connecting line (22) between the parallel connecting lines (16, 17), which is in each of the branches off parallel connecting lines between the two check valves (18, 19 or 20, 21) and into which at least one switching valve (23) which completely releases or blocks this connecting line (22) is inserted in series with a preload valve (24). Actuating arrangement according to claim 1 or 2, characterized in that the switching valve (23) is designed as a normally open valve. Actuating arrangement according to one of claims 1 to 3, characterized in that the or each lockable connecting line (14, 15) to the reservoir (8) from the connecting line (17) furthest from the working cylinder arrangement (3) from the working spaces (4, 5 ) branches off. Actuating arrangement according to at least one of the preceding claims, characterized in that the switching valve (23) is equipped with a mechanically actuated release. Actuating arrangement according to at least one of the preceding claims, characterized in that an identical double-acting working cylinder (3) is provided, the two working spaces (4, 5) of which can be connected to one another and to the reservoir (8) via the connecting lines (16, 17, 22) , and the work spaces (4, 5) of which can be alternately fed with working fluid by a supply unit (6 to 13). Actuating arrangement according to claim 6, characterized in that the supply unit contains a reversible pump (6), the two outputs of which are connected to check valves (10) which can be unlocked via the respective other output, both sides of the reversible pump (6) via a shuttle valve (7 ) are connected to each other and to a reservoir (8) for the working fluid. Actuating arrangement according to at least one of the preceding claims, characterized in that a sensor for the vehicle inclination is provided and is connected to the control device. Actuating arrangement according to at least one of the preceding claims, characterized in that a sensor is provided for the movement of the pivotable part of the vehicle and is connected to the control device. Actuating arrangement according to at least one of the preceding claims, characterized in that at least one pressure sensor is provided between the working cylinder arrangement (3) and switching valve (23) and is connected to the control unit.

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