WO2001012935A1

WO2001012935A1 - Method and device for limiting the locking pressure of an adjustment drive that is arranged in a vehicle

Info

Publication number: WO2001012935A1
Application number: PCT/DE2000/002314
Authority: WO
Inventors: Christian Stolz
Original assignee: Robert Bosch Gmbh
Priority date: 1999-08-11
Filing date: 2000-07-14
Publication date: 2001-02-22
Also published as: DE19937963A1

Abstract

The invention relates to a method and a device for limiting the locking pressure of an adjustment drive (14) that is arranged in a vehicle. The inventive device comprises a motor (15) and a position detection unit (18) that detects the position of the moveable components, especially windows and sunroofs, which are driven by the adjustment drive (14). The inventive device also comprises an evaluation unit (19). According to the invention, the movement areas of the moveable components are monitored by at least one transmitter-receiver-unit (20) which is connected to the evaluation unit (19).

Description

Method and device for limiting the closing force of an adjustment drive arranged in a vehicle

State of the art

The invention relates to a method and a device for limiting the closing force of an adjustment drive arranged in a vehicle according to the preamble of the independent claims.

In the current methods for limiting the closing force of actuators in motor vehicles, the speed or the current consumption of the actuator is usually measured and evaluated using complex algorithms. In the event of anomalies or deviations from the course typical of the undisturbed closing process, the adjustment drive is stopped or reversed. This prevents pinching of a human body part or an object or limits the pinching force acting on it to a legally prescribed, tolerable level.

A disadvantage of these methods, however, is that a person or an object always has to be pinched to a certain extent in order to recognize a pinching situation and to react appropriately to it. Another disadvantage is that disturbing factors frequently occur during the ferry operation, which trigger an undesired triggering of the pinch protection pull, such as driving on a bumpy track or pulling at high speeds.

Advantages of the invention

The inventive method with the features of the main claim has the advantage that a completely contactless detection of an impending pinching process of a person or an object is made possible. By monitoring the range of motion of the moving parts driven by the adjustment drive with an electromagnetic transmitter-receiver unit, obstacles in the range of motion can be reliably and reliably detected and pinching situations - for example by reversing or stopping the adjustment drive - can be specifically avoided.

A further, very great advantage of the method according to the invention is that the typical disturbing factors which occur during the ferry operation and which can lead to false triggers do not have to be taken into account.

The measures specified in the subclaims allow advantageous further developments of the method according to the main claim.

It is therefore advantageous if radar signals are transmitted and received by the at least one transmitter-receiver unit, for example in the microwave range. With these radar signals, which are reflected in particular by human body parts, obstacles in the range of motion of the moving parts can be reliably detected.

For reliable detection of pinching situations, it is necessary that the at least one transmitter-receiver unit connected to an evaluation unit detects the respective current positions of the moving parts, determined, for example, by an additional sensor system, and the signals received by the transmitter-receiver unit are evaluated taking these positions into account. This makes it possible to decide whether a change in the received signals is a completely normal closing process, in which the moving part approaches its final closing position, or whether there is an obstacle in the range of motion, which triggers a measure required to prevent trapping.

As an alternative to this, it is also possible for the reflected, received signals of the at least one transmitter-receiver unit to be evaluated taking into account reference radar signals for an undisturbed closing operation. These reference radar signals can be determined, for example, by a one-time reference run or a reference run to be carried out at cyclical intervals and stored in the evaluation unit. A current position detection of the moving parts via an additional sensor system - for example with incremental counters or the like - can then be omitted, which is a great advantage.

It is also advantageous if the range and the sensitivity of the at least one transmitter-receiver unit are specifically tailored to specific movement areas.

This opens up the possibility, for example, of really only monitoring the range of motion traversed by the moving parts or only the relevant range of motion. The risk of jamming is low in less relevant areas, for example in areas in which the movable part is immersed in a seal or in which the movable part exposes a relatively large opening. Adjusting the sensitivity allows an even more differentiated evaluation method, for example extremely critical areas can then be monitored very sensitively and less critical areas can be monitored relatively insensitively. It can also be ruled out that a brief, safe stay of obstacles during a closing process does not automatically lead to the activation of an anti-trap measure.

A further advantage results if the position of the obstacles located in the range of motion is determined on the basis of the transmitted and received radar signals. This is e.g. B. with so-called Doppler radar sensors, which are able to evaluate the frequency or phase shift that occurs when the radar signals are reflected by an object in motion. This enables a differentiated triggering of certain anti-trapping measures, for example stopping or reversing the adjustment drive, driving the moving part into a safe or original position, or the acoustic output of a warning tone.

It is also advantageous if, based on the transmitted and received radar signals, the speed of the obstacle located in the range of motion is determined.

This opens up additional possibilities for the early detection of pinching processes.

The method can be implemented with the device having the features of independent claim 10.

The use of a radar sensor is advantageous because it enables objects, people or human body parts to be detected particularly reliably in the range of motion of the moving parts. In principle, ul- ultrasound sensors or other sensors emitting and / or receiving radiation.

The transmitter-receiver unit or the radar sensor is advantageously arranged in the vicinity of the movement ranges of the moving parts. In the case of a sliding roof, the appropriate sensor can be installed in the front area of the roof directly at the edge of the roof opening. In a window lifter system, the upper window frame area "is very well suited for the sensor assembly. Ultimately, it is crucial that the movement range of the parts to be moved can be optimally monitored by the placement of the sensor or the radiation characteristic of the sensor can optimally detect the movement range. For this purpose of course, several sensors can also be used.

It is also advantageous if the evaluation unit contains a microprocessor which allows special evaluation algorithms to be run through. Then there is also the possibility to implement common adaptation methods that adapt automatically to aging processes.

drawing

The drawing shows two exemplary embodiments of devices for carrying out the method according to the invention and explained in more detail in the following description. Show it

Figures 1 and 2 each show a schematic diagram for performing the method on a sunroof and

Figure 3 shows another schematic diagram for performing the method in a window regulator system.

Description of the embodiments The first exemplary embodiment shown in FIGS. 1 and 2 shows a sliding / lifting roof system in a motor vehicle with a sliding / lifting roof 10 which can be brought into various lifting and sliding positions in an opening in a roof 12.

FIG. 1 shows a special lifting position of the sliding / tilting roof 10 and FIG. 2 shows the fully open sliding position. The respective directions of movement of the roof 10 are indicated by the arrows A and B.

The sliding / tilting roof 10 is driven via a mechanical connection 13 by an adjusting drive 14, which can be specifically controlled by a manual input unit 16. In addition to a motor 15, the adjusting drive 14 comprises a position detection unit 18 and a transmitter-receiver unit 20. The transmitter-receiver unit 20 is connected to a microprocessor-controlled evaluation unit 19. The position detection unit 18, the evaluation unit 19 and the transmitter-receiver unit 20 form a monitoring unit with which the range of movement of the sliding / tilting roof 10 can be monitored and a pinch protection can be triggered.

In the exemplary embodiment shown in FIGS. 1 and 2, the transmitter-receiver unit is a radar sensor 20 which emits electromagnetic radiation in the range of a few gigahertz and which is partially reflected by an obstacle in the range of motion. The reflected portions are detected by the radar sensor 20 and evaluated in terms of their intensity in the evaluation unit 19. In the

Evaluation also includes the information about the current position of the sliding / tilting roof 10, which is provided by the position detection unit 18. The evaluation of the reflected radar signal together with the current position of the sunroof allows to conclude that a human body part or an object is present in the hatched movement area 24 of the sliding / tilting roof 10. In this way, impending pinching processes can be recognized at an early stage and measures to prevent pinching can be initiated. Possible measures for this include, for example, stopping the adjustment drive, reversing the drive direction or driving into a safe or original position.

FIG. 3 shows a second exemplary embodiment, the application here relating to a window lifter system in which a window 24 can be moved in a window frame 25 in the arrow direction C. The features that are the same as in the first exemplary embodiment are provided with the same reference symbols.

The essential difference from the first exemplary embodiment lies in the use of two radar sensors which, in addition to the pure detection of an obstacle in the range of motion of the window 24, also permit the determination of the speed and direction of movement of the obstacle. Such radar sensors are called Doppler radar sensors because they take advantage of the physical effect of the Doppler shift. Depending on the movement of the obstacle, in addition to a frequency change, a defined phase shift of the receiver signal in comparison to the transmitter signal occurs, which indicates the direction of movement and the speed of the object to be detected.

In principle, it is also conceivable to dispense with the position detection unit 18 and to perform an additional evaluation of the signal components reflected by the moving parts.

Claims

Expectations

1. A method for limiting the closing force of an adjustment drive (14) arranged in a vehicle, with a motor (15) and a position of the movable parts (10, 24) driven by the adjustment drive (14), in particular windows and sunroofs, detecting position detection unit (18) and an evaluation unit (19), characterized in that the movement ranges of the movable parts (10,

24) are monitored by at least one transmitter / receiver unit (20) connected to the evaluation unit (19).

2. The method according to claim 1, characterized in that of the at least one transmitter-receiver unit (20)

RADAR signals are transmitted and received.

3. The method according to claim 1 or 2, characterized in that the signals received by the at least one transmitter-receiver unit (20) are evaluated by the evaluation unit (19) taking into account the current position of the moving parts (10, 24) become.

4. The method according to any one of claims 1 to 3, characterized in that the at least one transmitter Received unit (20) received signals from the evaluation unit (19) are evaluated taking into account reference signals for an undisturbed closing process.

5. The method according to claim 3 or 4, characterized in that the adjusting drive is stopped or reversed when the evaluation of the signals received suggests an obstacle in the range of motion.

6. The method according to any one of the preceding claims 1 to 5, characterized in that the sensitivity of the at least one transmitter-receiver unit (20) is matched to individual areas of movement.

7. The method according to any one of claims 2 to 6, characterized in that the position of the obstacles is determined with the transmitted and received RADAR signals.

8. The method according to any one of claims 2 to 7, characterized in that the speed of the obstacles is determined with the transmitted and received RADAR signals.

9. The method according to any one of claims 2 to 8, characterized in that the movement of the movable part

(10, 24) is monitored.

10. Device for limiting the closing force of an adjustment drive (14) arranged in a vehicle, with a motor (15), a position detection unit () which detects the position of the moving parts driven by the adjustment drive (14), in particular windows and pop-up sunroofs. 18) and an evaluation unit (19), characterized in that that the adjustment drive (14) has an electromagnetic transmitter-receiver unit (20), which is connected to the evaluation unit (19), for monitoring the movement ranges of the moving parts.

11. The device according to claim 10, characterized in that the electromagnetic transmitter-receiver unit has at least one RADAR sensor (20).

12. The apparatus of claim 10 or 11, characterized in that the transmitter-receiver unit (20) in the vicinity of the moving areas of the movable

Parts is arranged.

13. Device according to one of the preceding device claims, characterized in that the evaluation unit (19) contains a microprocessor.