This application claims priority to German Patent Application No. DE 10 2020 116 025.9, filed on Jun. 17, 2020, the disclosure of which is hereby incorporated in its entirety by reference herein.
The present disclosure relates to a method of controlling a motorized flap assembly of a motor vehicle.
The flap assembly in question is equipped with a pivotable flap, which may be pivoted by a drive arrangement between an upright closed position and a horizontal open position. Such flaps may be found, for example, in work vehicles in which the rear area of an open loading area is closed with the flap. Such work vehicles are also referred to as pickup trucks. Other application examples are station wagons in which the rear opening is closed by means of two flaps lying one above the other which may be pivoted horizontally.
The flap may be brought into an open position in which the flap is in a substantially horizontal orientation. The arrangement is such that the flap pivoted open in this way can serve as a shelf, as a bench or the like. It can be occupied accordingly by an object, such as a person.
An occupancy state of a pivoted open flap can be detected a position sensor associated with the flap assembly. This is because the occupancy of the pivoted open flap by an object, for example a person, leads to characteristic relative movements within the flap assembly with a suitable design, which can be evaluated at a position sensor associated with the flap assembly for detecting the occupancy state.
In detail, it is proposed that the occupancy state regarding the occupancy of the pivoted open flap by an object may be detected by the control arrangement by means of the position sensor according to at least one occupancy criterion and an occupancy reaction is triggered depending on the detected occupancy state. As an example, this makes it possible to avoid accidental motorized adjustment processes when the flap is occupied by an object. As a result, the operational safety of the flap assembly can be increased in a simple way with the teaching according to the proposal.
The term “pivoted open flap” is to be interpreted broadly in this case. In the pivoted open state, the flap 2 occupies a horizontal position, but it does not have to be exactly the open position. As an example, the yet to be explained overtravel position also corresponds to the state of the pivoted open flap according to this wide interpretation.
The term “position sensor” represents a sensor for determining position information related to the position of a selected component of the flap assembly. The term “selected” in this case merely means that the component in question is identifiable as such. A selection step of any kind is not included in this and is not part of the method according to the proposal. The position information may include a position, a slope or the like. However, the position information may also include time derivatives, i.e. velocity and acceleration information. In this respect, the term “position sensor” is to be understood broadly in this case.
The occupancy state to be detected in each case can be defined broadly by means of the at least one occupancy criterion. In a variant to be implemented with little effort, a distinction is only made between the occupancy state of the pivoted out flap when occupied by an object, i.e. the “occupied” occupancy state, and the occupancy state of the unoccupied flap, i.e. the “unoccupied” occupancy state.
In one or more embodiments, a gesture-based adjustment of the flap may be provided, in which in one variant the detection range of the associated gesture sensor at least partly includes the legs of a person sitting on the pivoted open flap. If, for example, a foot movement, such as a kicking movement, would result in triggering a motorized closing process, then the person sitting on the pivoted open flap would run the risk of unintentionally triggering just such a motorized closing movement by dangling his legs. Here, the detection according to the proposal of the occupancy state of the pivoted open flap may have an advantage, since a malfunction as above can be safely avoided by a suitable occupancy reaction which is yet to be explained.
One or more embodiments may be directed to detecting the occupancy state of the pivoted open flap. While the position sensor, such as a Hall sensor element, the position sensor according may be equipped with an inclination sensor element, such as an inertial sensor element. Both sensor variants may be used in each case on their own or in combination for the implementation of the solution according to the proposal.
Detection with the above sensor elements may be made with little effort. This is because the occupancy of the pivoted open flap by an object is accompanied by an adjustment of the flap from an open position to an overtravel position, which can be easily detected by sensor. It may be that the open position and not the overtravel position is approached during the motorized opening process.
The adjustability of the flap from the open position to the overtravel position can be due to mechanical play or freewheeling, without requiring resilient flexibility of the flap assembly 1. However, resilient flexibility, for example due to a spring arrangement, is provided for the adjustability of the flap from the open position to the overtravel position.
One or more embodiments are directed to respective occupancy reaction. Here it becomes clear that with the solution according to the proposal, a wide range of measures can be generated for increasing operational safety, ranging from a simple occupancy message to an operator interface to a suspension of control of the drive arrangement and/or a suspension of gesture recognition. An occupancy reaction may be optimized for the respective individual case results, in that the messages in question may be provided differently to an operator interface or to the further control arrangement depending on the occupancy state and the operating situation.
According to another embodiment, which has independent importance, a computer program product for a control arrangement is provided. Reference may be made to all statements relating to the method according to the proposal and to the control arrangement according to the proposal.
According to another embodiment, which also has independent importance, a computer-readable storage medium on which the computer program product according to the proposal is stored, is provided. Here too, reference may be made to all statements relating to the method according to the proposal.
According to yet another embodiment, which also has independent importance, a motorized flap assembly of a motor vehicle configured to be operated by the method provided above, is provided.
The invention is explained below in more detail on the basis of a drawing merely representing an exemplary embodiment. In the figures
As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention that may be embodied in various and alternative forms. The figures are not necessarily to scale; some features may be exaggerated or minimized to show details of particular components. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a representative basis for teaching one skilled in the art to variously employ the present invention.
A known method for controlling a motorized flap assembly is disclosed in US 2017/0089112 A1, that includes a drive arrangement with a spindle drive arranged in the flap is used. With this, motorized adjustment of the flap is possible at the request of the operator. However, it cannot be ruled out here that an unwanted, motorized closing process takes place, although the flap is still occupied by an object, such as by a person. This results in the risk of damage to property and personal injury, which is to be understood as an impairment of the operational safety of the flap assembly.
The present disclosure attempts to resolve one or more of the above-mentioned issues.
The method according to the proposal is used to control a motorized flap assembly 1 of a motor vehicle. In one or more embodiments, the motor vehicle is a pickup truck. Other variants of motor vehicles with a flap 2 which may be pivoted into a horizontal open position are also suitable for the application of the solution according to the proposal.
In addition to the flap 2, which may be pivoted around a flap axis 2a here, the flap assembly 1 has a drive arrangement 3 associated with the flap 2 and a control arrangement 4 for controlling the drive arrangement 3. In this case and preferably, the drive arrangement 3 has a spindle drive 5 arranged in the flap 2, which is coupled to the motor vehicle body by transmission kinematics 6. With regard to structural details of a design according to the proposal of the flap assembly 1, such as the spindle drive 5, reference may be made to US 2017/0089112 A1, which originates from the applicant and which is hereby incorporated by reference.
A position sensor 7 for determining position information related to the position of a selected component of the flap assembly 1 is associated with the flap assembly 1. In this case, the selected component, which relates to the position information, may be a drive shaft 8 of an electric drive motor 9 of the spindle drive 5.
The drive arrangement 3 may be designed to be reversible, so that a non-motorized, manual adjustment of the flap 2 by the introduction of a manual actuating force into the flap 2 causes a reversal of at least a part of the drive train of the drive arrangement 3. Thus, the occupancy of the flap 2 by an object can be easily detected, as is yet to be explained.
As one example, by means of the control arrangement 4 movement commands for the drive arrangement 3 are generated to close the flap 2 in an upright closed position (
The control of the drive arrangement 3 may be carried out without sensors. However, the drive arrangement 3 may be controlled by means of the control arrangement 4 based on the position information. As a result it is possible to approach movement profiles, but also exact positions of the flap 2, controlled by means of a control loop.
As mentioned above and shown in
The occupancy state of the pivoted open flap 2 may be detected by the control arrangement 4 by means of the position sensor 7 according to at least one occupancy criterion and an occupancy reaction is triggered depending on the detected occupancy state.
In detail, the “occupied” occupancy state (
A relatively comfortable triggering of the motorized closing movement or the motorized opening movement results in that a gesture sensor 10 is monitored by the control arrangement 4 for the occurrence of a predetermined operator gesture during gesture recognition and thereupon the motorized closing process or the motorized opening process is triggered. The operator gesture may be, for example, a foot movement of a person standing in front of the flap 2. As an example, the foot movement is a so-called “kicking movement”, which may be directed towards the flap 2. It may be seen from the representation according to
In the exemplary embodiments which have been shown the position sensor 7 has a position sensor element 12, which may be configured to determine a position of the selected component. As an example, the selected component is a drive component, such as the drive shaft 8, of the drive arrangement 3, in this case of the drive motor 9 of the spindle drive 5. Here, the aforementioned reversibility may be advantageous, since any movement that is due to the occupancy of the pivoted open flap 2 by an object is passed through to the drive component, in this case the drive shaft 8.
In a relatively cost-effective and at the same time robust variant, the position sensor element 12 is a Hall sensor element. Then the selected component, in this case the drive shaft 8, may be appropriately equipped with a magnetic arrangement 13.
Alternatively or additionally, the position sensor 7 may have an inclination sensor element 14 for determining the inclination of the selected component. This is shown schematically in
In the represented embodiments, an overtravel movement 15 from the open position (shown in a solid line) to an overtravel position (shown in a dashed line) may be produced by the transition from the “unoccupied” occupancy state to the “occupied” occupancy state. In this case, an occupancy criterion may be defined in that the overtravel movement 15 and/or the overtravel position is detected by the control arrangement 4 by means of the position sensor 7. As an example, meeting this occupancy criterion is sufficient for considering the “occupied” occupancy state to be detected.
The open position and the overtravel position are located immediately adjacent to each other in relation to a pivoting movement of the flap 2 around the flap axis 2a. As an example, the open position and the overtravel position are spaced apart from each other by less than 5°, or by less than 3°, or by less than 2°, in each case in relation to the swivel axis 2a of the flap 2. Alternatively or additionally, it may be that during the transition from the open position to the overtravel position the free edge of the flap 2 opposite the swivel axis 2a is offset, such as lowered, by less than 20 mm, or by less than 10 mm, or by less than 5 mm.
During a motorized opening process, the flap 2 approaches the horizontal open position, which is shown in the drawing with a solid line. This may be realized so that during the motorized opening process, the open position of the flap 2 before the overtravel position when seen from the closed position—is approached purely by control technology by the control arrangement 4 by the position sensor 7. The term “purely by control technology” means that the open position is approached solely based on the position information and without the need to approach a stop. Here, a predetermined movement process may be implemented according to a type of soft stop, in which the speed is successively reduced until reaching the open position. Alternatively, it may be provided that during the motorized opening process the open position of the flap 2 before the overtravel position is mechanically approached against a stop 16 by the control arrangement 4 in block mode. The first-mentioned variant of the purely control technology approach to the open position may be provided in
As an example, the adjustability of the flap 2 from the open position to the overtravel position may be provided in the manner of mechanical play or freewheeling and without resilience. In the sense of a smooth transition from the open position and the overtravel position, however, it may be provided that when the flap 2 is in the open position at least part of the flap assembly 1 has flexibility further in the pivoting direction of the flap 2 and that as a result the overtravel movement 15 detected by the control arrangement 4 by the position sensor 7 during the transition from the “unoccupied” occupancy state to the “occupied” occupancy state may be due to a resilient deformation of at least part of the flap assembly 1.
In the representation according to
In both illustrated, and in this respect preferred, exemplary embodiments, resilient flexibility is provided such that after the end of occupancy of the flap 2 by the object, in this case the person, restoring the flap 2 in its closing direction from the overtravel position back to the open position is carried out.
In both exemplary embodiments shown in
The respective detected occupancy state of the flap 2 may be reacted to in a different way with a corresponding occupancy reaction. As an example, an occupied message is output to an operator interface or to another control arrangement as an occupancy reaction to the detection of the “occupied” occupancy state. An operator interface may in the present case be quite generally a kind of output unit, which may be arranged on the motor vehicle, on a radio key or the like. The further control arrangement may be, for example, a central, higher-level control arrangement of the motor vehicle.
Alternatively or additionally, suspension of the control of the drive arrangement 3 may be provided as an occupancy reaction, so that material damage or personal injury, which could be due to the occupancy of the flap 2, is excluded. Further alternatively or additionally, suspension of gesture recognition may be provided as an occupancy reaction, so that the faulty detection of a gesture, which is caused, for example, by dangling the legs of a person sitting on the flap 2, is excluded. The above suspension of control of the drive arrangement 3 and/or the above suspension of gesture recognition may be maintained until the occupancy of the flap 2 is removed.
As an example, it may also be provided that on detection of the “occupied” occupancy state and in addition on the generation of a movement command for the closing process, the occupancy reaction is the suspension of the closing process and/or an occupied flap movement message to an operator interface or to another control arrangement. Thus, in any case it is initially prevented that a motorized closing process is carried out, although the “occupied” occupancy state has been detected.
However, the detection according to the proposal of the occupancy state of the flap 2 may also be advantageous in the situation in which the motor vehicle is in the drive mode. For this purpose, it may be provided that on detection of the “occupied” occupancy state and in addition on the triggering of the drive mode of the motor vehicle, the occupancy reaction is the suspension of the drive mode and/or an occupied drive mode message to an operator interface or to a further control arrangement. Here, if appropriate, further sensor information, for example the sensor information of a pinch protection sensor 20, 21 of a pinch protection arrangement 19, may be used to check whether the detected occupancy state is to be classified as permissible. An example of this is the transport of wooden beams which protrude beyond the loading area and thus rest on the flap 2. In this case, the occupancy reaction may be suspended.
Alternatively or additionally, it may be provided that on detection of the “unoccupied” occupancy state of the pivoted open flap 2 and in addition on the triggering of the drive mode of the motor vehicle, the occupancy reaction is the suspension of the drive mode and/or an unoccupied drive mode message to an operator interface or to a further control arrangement. In this case it may be provided that the suspension, in this case of the drive mode, is maintained only until the pivoted open state of the flap 2 is cancelled.
Further alternatively or additionally, on detection of the “unoccupied” occupancy state of the pivoted open flap 2 and additionally on the triggering of the drive mode of the motor vehicle, the occupancy reaction may be triggering of the motorized closing process of the flap 2, so that the pivoted open state of the flap 2 is automatically cancelled. This motorized closing process may still take place before the start of drive mode or during the drive mode.
In one or more embodiments, the occupied message and/or the occupied flap movement message and/or the occupied drive mode message and/or the unoccupied drive mode message are different from each other, so that a distinction of the messages in question is possible. Further it may be provided that the occupied message and/or the occupied flap movement message and/or the occupied drive mode message and/or the unoccupied drive mode message triggers or trigger an acoustic and/or optical message via the operator interface.
The detection according to the proposal of the occupancy state of the flap 2 may also be used in the context of an aforementioned pinch protection function. In detail, it may be provided that the flap assembly 1 has an also already mentioned pinch protection arrangement 19, that may include at least one pinch protection sensor 20, 21, which monitors the motorized closing process and/or the motorized opening process for a predetermined pinch case. The monitoring sensitivity may be adjusted depending on the respective detected occupancy state of the flap 2.
According to one or more embodiments, which has independent importance, a computer program product for a control arrangement 4 is provided. The computer program product has commands which, during the execution of the program by a computer of the control arrangement 4 of the flap assembly, cause this to detect the occupancy state of the pivoted open flap 2 by the position sensor 7 and to trigger an occupancy reaction depending on the detected occupancy state. All statements relating to the method according to the proposal may be referred to.
According to one or more embodiments, which also has independent importance, a computer-readable storage medium, on which the computer program product according to the proposal is stored, may be in a non-volatile manner. In this respect, too, reference may be made to all statements relating to the method according to the proposal.
According to one or more embodiments, which also has independent importance, the motorized flap assembly 1 of the motor vehicle is provided. In this respect, too, reference may be made to all statements relating to the method according to the proposal, insofar as they are suitable for explaining the flap assembly 1.
The following is a list of reference numbers shown in the Figures. However, it should be understood that the use of these terms is for illustrative purposes only with respect to one embodiment. And, use of reference numbers correlating a certain term that is both illustrated in the Figures and present in the claims is not intended to limit the claims to only cover the illustrated embodiment.
While exemplary embodiments are described above, it is not intended that these embodiments describe all possible forms of the invention. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the invention. Additionally, the features of various implementing embodiments may be combined to form further embodiments of the invention.
Number | Date | Country | Kind |
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10 2020 116 025.9 | Jun 2020 | DE | national |