The present invention generally relates to controlling operation of a vehicle rear door such as a hatch or trunk and, more particularly relates to opening the rear door based on proximity sensing.
Automotive vehicles typically include a rear door generally in the form of a hatch or trunk which closes to contain a rear storage compartment and opens to allow access to the compartment from the rear side of the vehicle. The rear door typically pivots between a closed position and an open position. Some rear hatches may include a motor or other actuator to actuate the hatch between the open and closed positions. Other rear doors such as a trunk of a vehicle may include an actuatable release mechanism to allow the trunk to open. Typically, the user, such as a driver of the vehicle is required to actuate a latch manually or via a switch (e.g., key fob) or a sensor to activate opening and closing of the hatch. It is desirable to provide for a rear door opening that minimizes the user interaction to activate the door.
According to one aspect of the present invention, a method of controlling a vehicle rear door is provided. The method includes the steps of detecting opening of a side door of a vehicle, sensing with a plurality of proximity sensors movement of a person moving from a side to a rear of the vehicle, and controlling an actuator to open the rear door of the vehicle in response to the detected opening of the side door followed by the sensed movement of the person.
According to another aspect of the present invention, a control system for a rear door of a vehicle is provided. The control system includes an actuator operatively coupled to the rear door of the vehicle and a plurality of proximity sensors disposed on a side and rear of the vehicle for detecting movement of a person from the side to the rear of the vehicle. The control system also includes a controller controlling the actuator to open the rear door when the movement of the person from the side to the rear is detected.
According to a further aspect of the present invention, a vehicle is provided. The vehicle includes a rear door, a side door, a door sensor for detecting an open state of the side door, and an actuator for actuating the rear door. The vehicle also includes a plurality of proximity sensors disposed on a side and rear of the vehicle for detecting movement of a person from the side to the rear of the vehicle after the detected open state of the side door. The vehicle further includes a controller controlling the actuator to open the rear door wherein the movement of the person from the side to the rear is detected.
These and other aspects, objects, and features of the present invention will be understood and appreciated by those skilled in the art upon studying the following specification, claims, and appended drawings.
In the drawings:
Referring to
The rear door 16 of the vehicle 10 may be in the form of a hatch such as is common for a van or SUV or other hatchback vehicle, according to one embodiment. According to another embodiment, the rear door 16 may be in the form of a trunk for a sedan-type vehicle. The rear door 16 has at least one rear window 26 for allowing viewing rearward of the vehicle 10. The rear door 16 generally pivots between an open position which allows access to the interior of the vehicle at the rear end and a closed position. The rear door 16 has an actuator that is actuatable to open the rear door 16. According to one embodiment, the actuator may include a motor (e.g., electric DC motor) that is powered to move the door 16 between the open and closed positions. According to another embodiment, the actuator may include a latch mechanism that is releasable to unlatch a vehicle door, such as a trunk, from its closed position and allow the trunk to open to the open position such as with a bias spring. For vehicles equipped with a tailgate, it is conceivable that the tailgate may be a rear door. It should be appreciated that with the use of a motor, the rear door 16 may both open and close with the use of the motor.
The vehicle 10 is equipped with a rear door control system that controls actuation of the rear door to allow the door to automatically open when a driver or passenger of the vehicle 10 exits a side door of the vehicle and moves to the rear end of the vehicle 10, according to a control routine. The control system 50 includes a plurality of proximity sensors located on the sides and rear of the vehicle 10 to sense movement of the driver or passenger moving from a side of the vehicle to a position at the rear end of the vehicle. The proximity sensors include proximity sensors 30A-30K shown located on the various windows 22A, 22B, 24A, 24B and 26 of the vehicle. In the embodiment shown, the front driver side door window 22A includes first and second proximity sensors 30A and 30B located side-by-side one forward of the other. Similarly, the rear driver side door window 24A includes third and fourth proximity sensors 30C and 30D likewise located side-by-side one forward of the other. The rear door window 26 is shown having three proximity sensors 30E-30G arranged side-by-side such that proximity sensor 30F is in the center of the rear window 26 and sensors 30E and 30G are located towards the opposite sides of the rear window 26. Additionally, the rear passenger side door window 24B has proximity sensors 30H and 30I located side-by-side, whereas the front passenger side window 22B has proximity sensors 30J and 30K located side-by-side. It should be appreciated that the proximity sensors may be located on various other portions of the windows or on other windows on the vehicle 10 extending along the side and rear of the vehicle which allow the sensing of an object, such as a driver or passenger of the vehicle, moving from a forward position on the side of the vehicle towards a rear position at the rear end of the vehicle generally rearward of the rear door 16. For vehicles equipped with additional side windows located rearward on the rear side doors 14A and 14B, the additional side windows may include one or more proximity sensors. It is preferred that the proximity sensors are located and spaced to allow continuous sensing of the driver or passenger as the person moves from the side to the rear of the vehicle 10.
The proximity sensors 30A-30K may be capacitive sensors, according to one embodiment. Each proximity sensor 32 provides a sense activation field to sense close proximity of an object such as a person (e.g., driver or passenger) in relation to the proximity sensors. In this embodiment, the sense activation field of each proximity sensor is a capacitive field and the body of a person has electrical conductivity and dielectric properties that cause a change or disturbance in the sense activation field, as should be evident to those skilled in the art. However, it should be appreciated by those skilled in the art that additional or alternative types of proximity sensors can be employed to sense an object in close proximity, such as, but not limited to, inductive sensors, optical sensors, temperature sensors, resistive sensors, ultrasonic sensors, lasers, field effect sensors, the like, or a combination thereof. Exemplary proximity sensors are described in the Apr. 9, 2009 ATMEL® Touch Sensors Design Guide, 10620 D-AT42-04/09, the entire reference hereby being incorporated herein by reference.
One arrangement of proximity sensors in the form of capacitive sensors located within one of the windows, such as the rear window 26, is illustrated in
The capacitive sensors may employ indium tin oxide as the clear transparent conductor according to one embodiment. The capacitive sensors may also employ a transparent conductive ink which may include a commercially available off the shelf conductive ink, such as EL-P ink sold under the brand name Orgacon™, such as EL-P 3000, which is made commercially available by AGFA, according to one example. Orgacon™ EL-P ink is a highly transparent, screen printable conductive ink, based on conductive polymers. The ink includes conductive polymers and a thermoplastic polymer binder. The liquid conductive ink may be applied directly to the glass windows in a desired pattern or may be formed onto a film which, in turn, is then applied and adhered onto the window. In any event, the transparent ink forming the capacitive sensors is formed onto the window and is visibly transparent to a user. It should be appreciated that the proximity sensors 30A-30K are formed on their respective windows of the vehicle 10 using a visibly transparent material. As a result, passengers inside the vehicle have an unobstructed view through the window and the proximity sensors are unobstructed by metal or other potential interfering material that would prevent or degrade the sensing of an object such as a person moving outside the vehicle 10 and in close proximity to the sensors. It should be appreciated that side window mounted proximity sensors 30A-30D and 30H-30K may be formed in the corresponding windows similar to the formation of the rear proximity sensors 30E-30G on rear window 26. While the three proximity sensors 30E-30G are shown located in the rear window of the rear door 16, it should be appreciated that the proximity sensors 30E-30G could otherwise be provided elsewhere in the rear door 16 or vehicle body, such as within the composite deck lid of the vehicle, according to other embodiments.
Referring to
The rear door control system 50 may further utilize the vehicle key fob 52 which is further shown as an input to the controller 40. The vehicle key fob 52 is presumed to be in the possession of the drive and hence, when detected, the driver is presumed to be the person approaching or exiting the vehicle in certain circumstances. For example, the driver of the vehicle may be detected by the presence of the key fob as the driver approaches the vehicle and may, in certain circumstances, be detected by the proximity sensors and cause activation of the rear door 16 to open the rear door 16. Contrarily, the driver of the vehicle may be detected departing from the vehicle with the key fob and the control system may automatically close the rear door 16 in certain circumstances. With the use of the key fob 52 as shown and described herein, according to another embodiment, it should be appreciated that the control system may operate without the processing the key fob signal.
Referring to
If a person is detected exiting the vehicle and then moving toward the back of the vehicle, routine 100 proceeds to step 112 to determine if the person is staying within a few feet (e.g., three feet) of the vehicle. A person may be detected at a location within a few feet of the vehicle by the use of the proximity sensors detecting a signal of a sufficient amplitude as the person progresses toward the back of the vehicle. If the person deviates beyond a few feet of the vehicle while moving towards the rear of the vehicle, routine 100 proceeds to step 114 to wait for the vehicle front side door to close and to reset the sequence before returning to step 104. If the person stays within a few feet of the vehicle, routine 100 proceeds to decision step 116 to determine if the person has reached the approximate middle of the trunk/hatch at the rear end of the vehicle and has stopped moving for a predetermined time period such as one (1) second. The position of the person in the approximate middle of the trunk/hatch may be detected by the rear proximity sensors 30E-30G sensing an object in close proximity thereto. The stopped movement of the person at the rear middle of the vehicle may be detected by detecting a substantially constant signal with the rear middle proximity sensor 30F. If neither of the conditions of step 116 are met, routine 100 proceeds to step 114 to wait for the vehicle front side door to close and reset the sequence before returning to step 104. If the person is detected in the approximate middle of the trunk/hatch and the person has stopped moving, routine 100 proceeds to step 118 to determine if a predetermined time period such as less than thirty (30) seconds has elapsed since the front side door was opened. If at least thirty (30) seconds has elapsed since the front side door opened, routine 100 times out and proceeds to step 120 to output a wrong chirp audible sound and/or visual flashing light to indicate to the person that the requirements were not met due to the requirement that the event take place in less than thirty (30) seconds, according to one example. Thereafter, routine 100 proceeds to step 114 to wait for the vehicle front side door to close to reset the sequence before returning to step 104. If the events of the routine occur in less than thirty (30) seconds since the front side door was opened, routine 100 proceeds to step 122 to output an audible chirp sound as a signal for the person to move away from the rear door. Next, at decision step 124, routine 100 determines if the person has moved away from the rear door within a predetermined time period such as three (3) seconds and, if so, opens the trunk/hatch rear door with the actuator at step 126. It should be appreciated that if a hand of the person touches the rear window during the opening of the rear door, which causes a spike in the corresponding proximity sensor signal, the trunk/hatch actuation will be reversed to close the rear door. If the person does not move away from the vehicle within three (3) seconds, routine 100 proceeds to decision step 110 to wait for the vehicle front side door to close to reset the sequence before restarting at step 104. Accordingly, the user must exit the vehicle and move toward the back of the vehicle in less than thirty (30) seconds and must pause for one (1) second and then move away from the vehicle when notified within three (3) seconds in order to cause actuation of the rear door trunk/hatch to activate to the open position. Further, a user may stop the opening of the door/hatch by touching their hand on the rear window so as to reverse the opening to a closing position to undue any unintended rear door open activations.
Referring to
In the above example, the driver of the vehicle moves away from the rear trunk within three (3) seconds as the final step in order to cause actuation of the rear door to the open position. According to another embodiment, the driver of the vehicle may move to a side of the vehicle as shown in
It should be appreciated that the trunk/hatch unlocking sequence may automatically open the trunk/hatch of the vehicle without requiring additional input from the driver or passenger of the vehicle. It should further be appreciated that the trunk/hatch may be opened based on other timing sequences such as a driver or passenger approaching the vehicle from another direction and/or with possession of a key fob. Further, it should be appreciated that the trunk/hatch may be automatically closed when the proximity sensors detect the driver or passenger walking away from the vehicle. For example, if the driver or passenger is detected in close proximity to the vehicle when the trunk/hatch is in the open position and then subsequently walks away from the vehicle, the trunk/hatch may be actuated to the closed position. It should be appreciated that the proximity sensors 30E-30G located in the rear window 26 are advantageously unobstructed and may sense close proximity to the object both when the trunk/hatch is in the closed position or the open position by sensing in either direction of the glass window.
Accordingly, the vehicle control system and method advantageously controls a vehicle rear door 16 to allow the rear door 16 to open and also close with minimal driver interaction. This enables a driver or passenger of the vehicle to access the trunk or hatch area of the vehicle in a simple and convenient manner without actuating any depressible mechanical switches or other extensive touch inputs or other learned gestures or actions.
It is to be understood that variations and modifications can be made on the aforementioned structure without departing from the concepts of the present invention, and further it is to be understood that such concepts are intended to be covered by the following claims unless these claims by their language expressly state otherwise.