JP4732628B2 - Opening / closing member control device and opening / closing member origin position setting method in opening / closing member control device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an opening / closing member control device that controls the opening / closing operation of an opening / closing member such as a roof glass, a window glass, and a sliding door of an automobile, and an opening / closing member origin setting method in the opening / closing member control device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, some sunroof devices installed in automobiles are provided with an auto open / close switch separately from a normal open / close switch in which a roof glass slides open / close only during operation. Once the auto-slide opening switch is operated, the roof glass is slid to open from the fully-closed position to the fully-open position at once without any further operation, and the auto-slide close switch is once operated. In the same manner, the auto slide closing operation is performed in which the roof glass slides and closes at once from the fully open position to the fully closed position. A sunroof device that performs such an automatic opening / closing operation generally has a function of detecting the pinching and reversing the roof glass in a fully open direction when a foreign object is caught during the auto slide closing operation of the roof glass. .
[0003]
A sunroof device having such a function usually includes a rotation detection device that detects a rotation direction and a rotation cycle of a drive motor. The apparatus is configured, for example, in the same manner as the technique disclosed in Japanese Patent Laid-Open No. 5-180665, and is arranged to output output signals (pulse signals) having different phases based on the rotation of the drive motor. It has a pair of rotation sensors. The apparatus detects the rotation period of the drive motor based on the output signal (pulse signal) output from the rotation sensor, and utilizes the phase difference of the output signal (pulse signal) output from each rotation sensor. The direction of rotation of the drive motor is detected. The sunroof device counts the rotation cycle of the drive motor, and detects the opening / closing position of the roof glass by adding the count number in the opening direction and subtracting it in the closing direction, and also detects the rotation direction of the drive motor. The roof glass opening and closing direction is detected.
[0004]
That is, the sunroof device detects the open / close position of the roof glass by adding or subtracting the count number based on the operation of the open / close switch in the normal open / close operation by the normal open / close switch operation and the automatic open / close operation by the auto open / close switch operation. The power supply to the drive motor is stopped at the fully open position or the fully closed position to stop the operation of the roof glass. If jamming occurs during auto-close operation, the drive motor is reversely rotated to reverse the roof glass by a predetermined amount (predetermined count number), and the count number is switched from subtraction to addition based on the reverse rotation of the drive motor. The open / close position of the roof glass is detected.
[0005]
Here, for example, when the drive motor is repaired or reassembled to the sunroof device by replacement, there is a possibility that the preset origin position (initial position) may be displaced due to mechanical displacement due to assembly. . The deviation of the origin position corresponds to a deviation between the opening / closing position of the roof glass detected based on the count number and the actual opening / closing position of the roof glass. Therefore, for example, when the roof glass detected based on the count number is positioned before the fully closed position and the actual roof glass reaches the fully closed position and does not operate any more, pinching is caused. There is a possibility that the reverse operation is repeated at the fully closed position by erroneously determining that it has occurred. Therefore, in the apparatus as described above, generally, when the number of times of reversal operation is counted and the number of times of reversal is performed more than a specified number of times, there is a possibility that an error is included in the opening / closing position of the roof glass based on the count number. As described above, the origin position setting (initial position setting) is performed again.
[0006]
[Problems to be solved by the invention]
By the way, in a cold region, the roof glass may freeze and not operate. In this case, it may be erroneously determined that the roof glass does not operate any more due to the pinching, and the roof glass is operated in reverse. At this time, the number of times of reversal is counted in the same way as the time of pinching, even though there is no pinching, so in cold regions where the roof glass becomes inoperable due to freezing, the specified number of times is easily exceeded. The number of times may be exceeded in spite of the absence. For this reason, it is necessary to frequently set the origin position in a cold region, which is troublesome.
[0007]
The present invention has been made to solve the above-described problems, and its purpose is set so that the origin position of the roof glass is set again when the reversing operation by the pinch determination is repeated a predetermined number of times or more. Opening / closing member control apparatus and opening / closing member origin position setting method in opening / closing member control apparatus, and opening / closing member control apparatus capable of preventing useless origin position setting, and opening / closing member origin position setting method in opening / closing member control apparatus It is to provide.
[0008]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 is based on a drive motor that opens and closes an opening and closing member, an opening and closing switch that is operated to open and close the opening and closing member, and rotation of the drive motor. A position detecting means for performing a counting operation and detecting the opening / closing position of the opening / closing member based on the count number, and operating the opening / closing member based on the operation of the opening / closing switch and the opening / closing position of the opening / closing member detected by the position detecting means An opening / closing control means for controlling the drive motor, and when the opening / closing member is closed, the pinching by the opening / closing member is detected, and when the pinching is detected, the driving motor is operated to reversely operate the opening / closing member. A pinching control means for releasing the pinching by reversing and setting the count number to a predetermined count number with the opening / closing member arranged at a predetermined position. With the origin position setting is performed that, when the reversal number of times that the inversion operation is performed is specified number of times or more by the pinching controller, The normal mode in which the open / close member is operated based on the operation of the open / close switch is restarted. Origin position setting The line U Switch to the mode you need In the opening / closing member control device configured as described above, the abnormality reversal detecting means for detecting an abnormal reversal in which the reversing operation of the opening / closing member is not performed even if the pinching control means detects the pinching by the opening / closing member, and the abnormality Re-setting avoiding means for avoiding the setting of the origin position again when abnormal reversal is detected by the reversing detecting means. The reversing operation performed by the sandwiching control means exceeds the specified number of times, and the normal mode is switched to the mode in which the home position setting needs to be performed again. Is a normal reversing operation, when the origin position setting is performed again, the mode in which the origin position setting needs to be performed again is canceled and switched to the normal mode, and the pinching control means When the reversal operation is performed more than the specified number of times and the normal mode is switched to the mode in which the home position needs to be set again, abnormal reversal is detected by the abnormal reversal detection means. In this case, it is necessary to set the origin position again by the reset avoidance means regardless of whether the origin position is set again. By switching to release a certain mode to the normal mode, to avoid the origin position setting of the re .
[0009]
According to a second aspect of the present invention, in the opening / closing member control apparatus according to the first aspect, the abnormal reversal detecting means is timed by a time measuring means for measuring a reversal operation time by the sandwiching control means, and the time measuring means. It is comprised from the determination means which determines whether reversal operation time exceeded the regulation time, and determines that it is abnormal reversal when this reversal operation time exceeds regulation time.
[0010]
According to a third aspect of the present invention, in the opening / closing member control apparatus according to the first or second aspect, the reset avoidance means detects the abnormal inversion at least once within the specified number of times. Avoid setting the home position again.
[0011]
According to a fourth aspect of the present invention, the opening / closing member is opened / closed by the drive motor, the counting operation is performed based on the rotation of the driving motor, the opening / closing position of the opening / closing member is detected based on the counted number, and the opening / closing switch is operated. And controlling the drive motor to operate the opening / closing member based on the detected opening / closing position of the opening / closing member, detecting the pinching by the opening / closing member when the opening / closing member is closing, and detecting the pinching, In order to reverse the drive motor, the drive motor is reversely rotated to release the jamming, and the origin position is set to set the count number to a predetermined number with the opening / closing member being disposed at the predetermined position, and the reverse When the number of inversions performed is greater than the specified number of times, The normal mode in which the open / close member is operated based on the operation of the open / close switch is restarted. Origin position setting The line U Switch to the mode you need like And If an abnormal reversal is detected in which the reversing operation of the opening / closing member is not performed even if the pinching by the opening / closing member is detected, the setting of the origin position again is avoided. The opening / closing member origin position setting method in the opening / closing member control apparatus, wherein the number of times of reversal in which the reversing operation has been performed exceeds a specified number, and the normal mode is switched to a mode in which the origin position needs to be set again. When the reversing operation of the opening / closing member is a normal reversing operation, the mode in which the re-origin position setting is required when the re-origin position setting is performed is canceled. Switching to the normal mode, and the number of times of reversal in which the reversing operation has been performed is a specified number of times or more, and the normal mode is switched to a mode in which the origin position needs to be set again. Is detected, regardless of whether or not the origin position is set again, the mode in which the origin position must be set again is canceled and the normal mode is released. By switching to de avoids origin position setting of the re .
[0012]
The invention according to claim 5 is the opening / closing member origin position setting method in the opening / closing member control apparatus according to claim 4, wherein the reverse operation time is measured, and whether the measured reverse operation time exceeds a specified time. It is determined whether or not it is abnormal reversal when the reversal operation time exceeds a specified time by the determination.
[0013]
The invention according to claim 6 is the opening / closing member origin position setting method in the opening / closing member control apparatus according to claim 4 or 5, and when the abnormal reversal is detected at least once within the specified number of times, The above origin position setting is avoided again.
[0014]
(Function)
According to the first and fourth aspects of the present invention, the origin position setting for setting the count number for detecting the position of the opening / closing member in a state where the opening / closing member is arranged at the predetermined position is performed, When the number of times of reversal that has been reversed by pinching exceeds a specified number of times, the opening / closing position of the roof glass based on the count number may contain an error, and the origin position setting is performed again. Yes. And even if the pinching by the opening / closing member is detected, if an abnormal reversal in which the reversing operation of the opening / closing member is not performed due to freezing or the like is detected, the setting of the origin position again is avoided. Therefore, in such a case, since the origin position setting is not required again, unnecessary origin position setting can be prevented by avoiding the setting of the origin position again.
[0015]
According to the second and fifth aspects of the invention, when the reversal operation time is measured, and when the counted reversal operation time exceeds the specified time, it is determined that the reversal operation is abnormal. Therefore, abnormal inversion can be easily detected.
[0016]
According to the third and sixth aspects of the invention, when the abnormal inversion is detected at least once within the specified number of times, the setting of the origin position is avoided again, so that the setting of the origin position again is surely avoided. be able to.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, an embodiment of the invention will be described with reference to the drawings.
FIG. 5 is a perspective view of a main part of an automobile equipped with a sunroof device, and a roof glass 4 as an opening / closing member is provided on a skylight 3 formed on a roof panel 2 of the automobile 1. The roof glass 4 is provided so as to be reciprocally slidable in the front-rear direction (sliding opening / closing operation) and capable of moving up and down (tilting opening / closing operation) with the vehicle width direction as a fulcrum at the front end portion thereof. The roof glass 4 is opened and closed through a drive transmission mechanism (not shown) based on the drive of the drive motor 5 indicated by a broken line in FIG. The drive motor 5 constitutes a drive unit 10 together with a drive control circuit 11 (described later) that controls the drive of the motor 5. The drive unit 10 is disposed between the roof panel 2 in front of the skylight 3 and a molded ceiling panel (not shown) on the indoor side.
[0018]
As shown in FIG. 2, the roof glass 4 of the present embodiment mainly includes a fully closed position, a tilt fully opened position (a position where the rear end of the roof glass 4 is most elevated to the outdoor side from the fully closed position), pseudo It has a fully closed position, a flap down position (a position where the rear end of the roof glass 4 is lowered most inward from the pseudo fully closed position), and a slide fully open position. In the present embodiment, the slide glass opening operation (S / O in FIG. 2) is performed in the order of the roof glass 4 from the fully closed position to the tilt fully open position, the pseudo fully closed position, the flap down position, and the slide fully open position. Operation) and the opposite operation are referred to as slide closing operation (S / C operation in FIG. 2). This slide opening / closing operation is performed by operating slide opening / closing switches SW2 and SW3 described later. Further, the opening operation of the roof glass 4 from the fully closed position to the fully opened tilt position is referred to as a tilt opening operation (T / U operation in FIG. 2), and the reverse operation is referred to as a tilt closing operation (T / D operation in FIG. 2). . This tilt opening / closing operation is performed by operating tilt opening / closing switches SW4 and SW5 described later.
[0019]
FIG. 1 is an electric block diagram for explaining an electrical configuration of a sunroof device that drives and controls the drive motor 5. A drive control circuit 11 that drives and controls the drive motor 5 is connected to a battery (not shown), and the circuit 11 is supplied with drive power + B from the battery. The drive power supply + B is adjusted to a predetermined power supply voltage by the power supply circuit 12 in the drive control circuit 11, and is detected by a position detection means, an opening / closing control means, a pinching control means, an abnormal reversal detection means, a reset avoidance means, a timing means, It is supplied to the control unit 13 constituting the determination means.
[0020]
The drive control circuit 11 is connected to the ignition switch SW1. The ignition switch SW1 is connected to the control unit 13 via the input circuit 14 in the drive control circuit 11. When operated, the ignition switch SW1 outputs an operation signal (ON signal) to the control unit 13 via the input circuit 14. The control unit 13 operates based on the driving power supplied from the power supply circuit 12 based on the ON signal of the ignition switch SW1.
[0021]
The drive control circuit 11 is connected to various switches SW2 to SW5 for opening and closing the roof glass 4, that is, a slide opening switch SW2, a slide closing switch SW3, a tilt opening switch SW4, and a tilt closing switch SW5. . The various switches SW <b> 2 to SW <b> 5 are connected to the control unit 13 via the input circuit 14 in the drive control circuit 11. When the various switches SW <b> 2 to SW <b> 5 are respectively operated, a command signal (in this embodiment, an L level (ground level) on signal) is output to the control unit 13 via the input circuit 14.
[0022]
A reference clock signal necessary for the operation of the control unit 13 is input from the clock oscillation circuit 15 to the control unit 13. In the control unit 13, the drive power supplied from the power supply circuit 12 is monitored by the voltage monitor circuit 16.
[0023]
The control unit 13 controls the motor 5 by supplying driving power to the driving motor 5 through the driving circuit 17.
That is, the control unit 13 of the present embodiment allows the roof glass 4 to be operated even if the slide open switch SW2 is once operated, that is, when the ON signal is once input from the switch SW2, even if the OFF signal is subsequently input from the switch SW2. Drive power is supplied to the drive motor 5 in order from the fully closed position to the tilt fully open position, the pseudo fully closed position, the flap down position, and the slide fully open position. To drive. Then, when the control unit 13 detects that the roof glass 4 is arranged at the slide fully open position by detecting the opening / closing position of the roof glass 4 to be described later, the control unit 13 stops the driving power supply to the driving motor 5, and The operation of the glass 4 is stopped.
[0024]
On the other hand, when the slide closing switch SW3 is operated once, that is, the ON signal is once input from the switch SW3, the control unit 13 moves the roof glass 4 to the slide fully open position even if the OFF signal is input from the switch SW3 thereafter. In the reverse order, the drive power is supplied to the drive motor 5 to drive the motor 5 to the fully closed position (automatic close operation) at once. Then, when the control unit 13 detects that the roof glass 4 is disposed at the fully closed position by detecting the opening / closing position of the roof glass 4 to be described later, the control unit 13 stops the drive power supply to the drive motor 5, and The operation of the glass 4 is stopped.
[0025]
If any one of the slide opening / closing switches SW2 and SW3 is operated while the roof glass 4 is automatically operated as described above, the control unit 13 stops the drive power supply to the drive motor 5. Then, the operation of the roof glass 4 is stopped. When the slide opening / closing switches SW2 and SW3 are operated again, the control unit 13 supplies drive power to the drive motor 5 so that the roof glass 4 is operated from the position where the roof glass 4 is stopped to the slide fully opened position or fully closed position at once. It has become.
[0026]
While operating the tilt opening switch SW4, that is, while the ON signal is input from the switch SW4, the control unit 13 supplies the driving power to the driving motor 5 in order to normally open the roof glass 4 (manual opening operation). And the motor 5 is driven. When the operation of the tilt opening switch SW4 is stopped, that is, when an OFF signal is input from the switch SW4, the control unit 13 stops the supply of drive power to the drive motor 5 in order to stop the operation of the roof glass 4. Further, in this case, when the roof glass 4 is disposed at the tilt fully open position by detecting the opening / closing position of the roof glass 4 to be described later, the control unit 13 returns to the drive motor 5 even if the tilt open switch SW4 is operated. Then, the operation of the roof glass 4 is stopped.
[0027]
On the other hand, the controller 13 controls the drive motor 5 to normally close the roof glass 4 (manual closing operation) while operating the tilt closing switch SW5, that is, while the ON signal is input from the switch SW5. Drive power is supplied to drive the motor 5. When the operation of the tilt close switch SW5 is stopped, that is, when an OFF signal is input from the switch SW5, the control unit 13 stops the supply of drive power to the drive motor 5 in order to stop the operation of the roof glass 4. Further, in this case, when the roof glass 4 is disposed at the fully closed position by detecting the opening / closing position of the roof glass 4 described later, the control unit 13 returns to the drive motor 5 even if the tilt close switch SW5 is operated. Then, the operation of the roof glass 4 is stopped.
[0028]
In the drive control circuit 11, a pair of Hall element magnetic sensors 18 a and 18 b constituting position detection means for detecting the rotation cycle (rotation speed) and rotation direction of the drive motor 5 are arranged on a substrate constituting the circuit 11. It is installed. Specifically, a sensor magnet magnetized in multiple directions in the rotational direction is provided on a rotation shaft (not shown) of the drive motor 5 so as to rotate integrally therewith, and a Hall element magnetic sensor 18a, 18b are arranged at predetermined intervals in the rotational direction. That is, the rotation sensor of this embodiment uses a non-contact type rotation sensor using magnetism. When the drive motor 5 rotates, each Hall element magnetic sensor 18a, 18b outputs a pulse-like output signal corresponding to the rotation of the motor 5 to the detection circuit 19, respectively. The output signals (pulse signals) output from the Hall element magnetic sensors 18a and 18b have a phase difference (for example, a 1/2 cycle). The detection circuit 19 shapes the waveform of each output signal (pulse signal) and outputs it to the control unit 13.
[0029]
The control unit 13 detects the rotation cycle (rotation speed) of the drive motor 5 based on the cycle of the output signal (pulse signal) input from the Hall element magnetic sensors 18a and 18b via the detection circuit 19.
[0030]
That is, when the slide opening switch SW2 and the tilt opening switch SW4 are operated and an ON signal is input, the control unit 13 counts every cycle of the output signal (pulse signal) (for example, based on the rising edge). Add “1” to the number (see FIG. 2). On the other hand, when the slide close switch SW3 and the tilt close switch SW5 are operated and an on signal is input, the control unit 13 determines from the count number added at the time of opening every cycle of the output signal (pulse signal). 1 "is subtracted. And the control part 13 detects the opening / closing position of the roof glass 4 according to the count number.
[0031]
As shown in FIG. 2, in this embodiment, when the count number is “10” or less, it is considered that the roof glass 4 is disposed at the fully closed position. Further, when the roof glass 4 is disposed at the tilt fully opened position, the count number is “128”, and when the roof glass 4 is disposed at the pseudo fully closed position, the count number is “205”. Further, when the roof glass 4 is disposed at the flap down position, the count number is “248”, and when the roof glass 4 is disposed at the slide fully open position, the count number is “1062”. Incidentally, the range between the count numbers “248” to “254” (slide A area in FIG. 2) is a load reversal mask area in which the pinching determination described later is not performed. That is, the pinching determination is performed between the count numbers “254” to “1062” (slide B region in FIG. 2). Further, when the roof glass 4 is arranged at the mechanical limit position on the fully open side, the count number becomes “1150”. The origin position setting (initial position setting) for determining the relative relationship between the roof glass 4 and the count number is, for example, in a state where the roof glass 4 is disposed at the mechanical limit position on the fully closed side. Is operated by setting the count number to “0” by operating the tilt closing switch SW5 for a predetermined time or a predetermined number of times or more so as to operate in the closing direction.
[0032]
The control unit 13 detects the rotation direction of the drive motor 5 according to the phase difference of each output signal (pulse signal), and detects the opening / closing direction of the roof glass 4 based on the detection of the rotation direction of the drive motor 5. is doing.
[0033]
Further, when the rotation period (rotational speed) of the drive motor 5 becomes longer (slower) than a predetermined pinching determination value while the roof glass 4 is performing the automatic closing operation, the control unit 13 It is determined that a foreign object has been pinched between the roof panel 2 and the rotation cycle has become longer (the rotation speed has become slower). Then, the control unit 13 reversely rotates the drive motor 5 to release the foreign matter sandwiched by the roof glass 4 in the closing operation, and opens the roof glass 4 by a specified amount (predetermined count number) (load reversal operation). . At this time, the control unit 13 switches the count number from subtraction to addition based on the reverse rotation of the drive motor 5.
[0034]
In this case, the control unit 13 stores the number of times of reversal by the above determination, and when the number of times of reversal is repeated a predetermined number of times, in this embodiment, five or more times, the open / close position of the roof glass 4 to be detected based on the number of counts. Since there is a possibility that an error may occur, the normal mode in which the operation based on the operation of each of the switches SW2 to SW5 is switched from the normal mode to the fail mode (inching mode), and the origin position setting as described above is continued again. . In this fail mode (inching mode), the normal operation (manual operation) of the roof glass 4 by the operation of the tilt opening / closing switches SW4 and SW5 can be performed as it is, but the automatic operation of the roof glass 4 by the operation of the slide opening / closing switches SW2 and SW3. Operation is prohibited. When the slide opening / closing switches SW2 and SW3 are operated, the roof glass 4 is moved slightly by a predetermined operation amount (predetermined count number). Therefore, when the roof glass 4 moves slightly, the user recognizes that the origin position needs to be set again.
[0035]
Next, a specific processing flow of the control unit 13 that performs such a reversing operation will be described with reference to FIGS.
In step S <b> 1, the control unit 13 determines whether or not the roof glass 4 is caught. That is, the control unit 13 makes the rotation period (rotational speed) of the drive motor 5 longer (slower) than a predetermined pinching determination value while the roof glass 4 performs the automatic closing operation in the slide B region shown in FIG. Then, it is determined that the foreign matter is pinched between the roof glass 4 and the roof panel 2 and the rotation period becomes longer (the rotational speed becomes slower). The control unit 13 repeats this step S1 until there is a pinch. If the roof glass 4 does not close any more due to pinching or freezing, the control unit 13 determines that pinch has occurred and proceeds to step S2. In addition, when the drive motor 5 is reassembled to the sunroof device by repair or replacement, mechanical misalignment occurs due to the assembly. For example, the detected roof glass 4 is located before the fully closed position. Regardless, even if the actual roof glass 4 reaches the fully closed position and does not operate any more, the control unit 13 determines that pinching has occurred and proceeds to step S2.
[0036]
In step S <b> 2, the control unit 13 reverses the drive motor 5 to release the foreign matter sandwiched by the roof glass 4 being closed, and starts the opening operation of the roof glass 4. At this time, the control unit 13 starts measuring the reverse operation time. Then, the control unit 13 proceeds to step S3.
[0037]
In step S <b> 3, the control unit 13 determines whether or not the roof glass 4 has been reversed by a predetermined amount (predetermined count). If the roof glass 4 has not been operated in reverse by the specified amount, the control unit 13 proceeds to step S4.
[0038]
In step S4, the control unit 13 determines whether or not the reverse operation time at which the time measurement is started in step S2 exceeds a predetermined time. This specified time is set to a time sufficiently longer than the time required for normal reversal operation. If the reversal operation time does not exceed the specified time, the control unit 13 returns to step S3 and determines whether or not the roof glass 4 is reversed by a predetermined amount again in step S3. That is, in steps S3 and S4, the control unit 13 determines whether or not the reversing operation is completed within a specified time.
[0039]
In step S3, when the roof glass 4 performs the specified amount reversal operation, the control unit 13 determines that the reversal operation has been performed normally, proceeds to step S5, and increments the stored number of reversals (to the number of reversals). "1" is added), the process proceeds to step S6, the power supply to the drive motor 5 is stopped, and the reverse operation is terminated.
[0040]
On the other hand, when the reversal operation time exceeds the specified time in step S4, the control unit 13 determines that the reversal operation has not been performed normally, that is, reverses that the roof glass 4 has not been reversed due to freezing or the like. Proceeding to S7, the abnormal inversion flag is set. Then, as described above, the control unit 13 increments the stored number of inversions (adds “1” to the number of inversions) in Steps S5 and S6, ends the inversion operation, and proceeds to Step S8.
[0041]
In step S <b> 8, if the number of inversions is repeated more than the specified number (5 in the present embodiment), the control unit 13 may cause an error in the opening / closing position of the roof glass 4 detected based on the number of counts. In step S9, the number of inversions stored in step S9 is reset to “0”, and further in step S10, the processing mode is switched from the normal mode to the fail mode (inching mode).
[0042]
That is, the control unit 13 prohibits the automatic operation of the roof glass 4 by the operation of the slide opening / closing switches SW2 and SW3, and the roof glass 4 corresponds to the switches SW2 and SW3 when the switches SW2 and SW3 are operated. The drive motor 5 is controlled so as to be moved by a predetermined operating amount (predetermined count number) in the selected direction. That is, when the roof glass 4 operates in the fail mode (inching mode), the user is made aware that it is necessary to set the origin position again.
[0043]
When the origin position is set in the fail mode, the control unit 13 performs processing according to the processing flow shown in FIG.
In step S11, the control unit 13 determines whether or not the roof glass 4 in the closing operation has reached the mechanical limit position on the fully closed side and has become a locked state (a state incapable of operating in the same direction any more). . If the roof glass 4 has not reached the mechanical limit position on the fully closed side, the control unit 13 repeats Step S11. And the control part 13 will progress to step S12, if the roof glass 4 reaches | attains the mechanical limit position of a fully closed side, and will be in a locked state.
[0044]
In step S12, the control unit 13 determines whether or not an abnormal inversion flag is set in step S7. If the abnormal reversal flag is not set, the control unit 13 determines that all five reversal operations are normal reversal operations, and proceeds to step S13.
[0045]
In step S13, the control unit 13 determines whether or not the origin position has been set. That is, in the state where the roof glass 4 is disposed at the mechanical limit position on the fully closed side as described above, the origin for setting the count number to “0” by operating the tilt close switch SW5 for a predetermined time or a predetermined number of times or more. When the position is set, the control unit 13 clears the abnormal reversal flag in step S14 and proceeds to step S15. In step S15, the controller 13 cancels the fail mode (inching mode) and returns to the normal mode.
[0046]
If the abnormal reversal flag is set in step S12, the control unit 13 proceeds to step S14 to clear the abnormal reversal flag without setting the origin position, and in step S15, the fail mode (inching mode) is set. ) To return to normal mode.
[0047]
That is, in the processing flow shown in FIG. 3, the abnormal reversal flag is set when there is at least one abnormal reversal operation in which the roof glass 4 did not reversal due to freezing or the like among the five reversal operations. ing. Therefore, in the present embodiment, assuming that there is no need to perform the origin position setting again, the control unit 13 avoids step S13 for determining whether or not the origin position is set. Therefore, when the roof glass 4 is not reversed due to freezing or the like, it is not necessary to set the origin position, so that unnecessary origin position setting can be prevented and the user's troublesomeness can be reduced.
[0048]
As described above, the sunroof device of the present embodiment has the following features.
(1) In this embodiment, even if the sandwiching by the roof glass 4 is detected, if an abnormal reversal in which the reversing operation of the roof glass 4 is not performed due to freezing or the like is detected, the setting of the origin position again is avoided. did. Therefore, in such a case, it is not necessary to set the origin position again, and by avoiding the setting of the origin position again, useless origin position setting can be prevented, and the user's troublesomeness can be reduced.
[0049]
(2) In this embodiment, the reverse operation time is measured, and when the measured reverse operation time exceeds the specified time, it is determined that the reverse operation is abnormal. Therefore, abnormal inversion can be easily detected.
[0050]
(3) In the present embodiment, when the abnormal reversal is detected at least once out of the five times of the reversal operation, the home position setting is avoided again, so that the home position setting is surely avoided again. be able to.
[0051]
In addition, you may change embodiment of this invention as follows.
In the above embodiment, the detection of abnormal reversal in which the reversing operation of the roof glass 4 is not performed due to freezing or the like is detected based on the reversing operation time. However, the present invention is not limited to this. It may be detected by the load current.
[0052]
○ In the above embodiment, the abnormal reversal flag is set when there is an abnormal reversal at least once out of the five reversal operations, and the origin position setting is avoided again. Good.
[0053]
○ In the above embodiment, when the number of inversions is 5 times or more of the specified number of times, the mode is switched to the fail mode in which the origin position needs to be set again. However, the number of inversions is not limited to this number. May be.
[0054]
In the above embodiment, the tilt closing switch SW5 is operated for a predetermined time or a predetermined number of times or more so that the roof glass 4 is further operated in the closing direction in a state where the roof glass 4 is disposed at the mechanical limit position on the fully closed side. For example, the origin position of the roof glass 4 is set by setting the count number to “0”. However, the setting of the origin position is not limited to this and may be changed as appropriate.
[0055]
In the above embodiment, when the rotation period of the drive motor 5 becomes longer than a predetermined pinching determination value, it is determined that pinching has occurred by the roof glass 4, but the pinching determination is not limited to this. Absent.
[0056]
In the above embodiment, the Hall element magnetic sensors 18a and 18b are used as the rotation sensor, but a magnetoresistive element whose resistance changes with a change in the magnetic field may be used. In addition to these non-contact type magnetic sensors, for example, an optical rotation sensor may be used. Further, a contact type rotation sensor using a sliding contact may be used.
[0057]
The circuit configuration of the drive control circuit 11 of the above embodiment is not limited to this, and may be changed as appropriate.
In the above embodiment, the drive motor 5 and the drive control circuit 11 having the Hall element magnetic sensors 18a and 18b, the control unit 13 and the like are integrally configured as the drive unit 10, but the present invention is not limited to this. For example, the drive control circuit 11 may be provided separately.
[0058]
In the above embodiment, the sunroof device that performs both the slide opening / closing operation and the tilt opening / closing operation is used. However, the sunroof device that performs only the slide opening / closing operation may be used.
[0059]
○ In the above embodiment, the sunroof device has the roof glass as the opening and closing member. May be.
[0060]
【The invention's effect】
As described above in detail, according to the present invention, in the opening / closing member control device and the opening / closing member control device set to perform the origin position setting of the roof glass again when the reversing operation by the pinching determination is repeated a predetermined number of times or more. An opening / closing member origin position setting method that can prevent unnecessary origin position setting and an opening / closing member origin position setting method in the opening / closing member control apparatus can be provided.
[Brief description of the drawings]
FIG. 1 is an electrical configuration diagram of a sunroof device of the present embodiment.
FIG. 2 is an explanatory diagram for explaining an opening / closing operation of a roof glass.
FIG. 3 is a flowchart showing a process flow of a control unit in a normal mode.
FIG. 4 is a flowchart showing a processing flow in a fail mode of a control unit.
FIG. 5 is a perspective view of a main part of an automobile equipped with a sunroof device.
[Explanation of symbols]
4 ... roof glass as an opening / closing member, 5 ... drive motor, 13 ... position detection means, opening / closing control means, pinching control means, abnormal reversal detection means, reset avoidance means, timing means, and determination unit, 18a, 18b ... Hall element magnetic sensors constituting position detecting means, SW2, SW3 ... Slide open / close switch as open / close switch.

Claims (6)

A drive motor for opening and closing the opening and closing member;
An open / close switch operated to open / close the open / close member;
A position detecting means for performing a counting operation based on the rotation of the drive motor and detecting an opening / closing position of the opening / closing member based on the count number;
An opening / closing control means for controlling the drive motor to operate the opening / closing member based on an operation of the opening / closing switch and an opening / closing position of the opening / closing member detected by the position detection means;
And a pinching control means for detecting pinching by the opening / closing member when the opening / closing member is closed, and detecting pinching to reverse the driving motor to release the pinch to reversely operate the opening / closing member. When the origin position setting for setting the count number to a predetermined count number is performed in a state where the opening and closing member is disposed at a predetermined position, and the number of times of reversal performed by the pinching control means is equal to or greater than a predetermined number of times, in the produced close member control apparatus to switch to need cormorants line again the origin position setting from the normal mode mode for actuating the opening and closing member based on the operation of the opening and closing switch,
An abnormal reversal detecting means for detecting an abnormal reversal in which the reversing operation of the opening and closing member is not performed even if the sandwiching control means detects the pinching by the opening and closing member;
When an abnormal inversion is detected by the abnormal inversion detection means, a reset avoidance means for avoiding the setting of the origin position again is provided ,
When the reversal operation performed by the sandwiching control means is more than a specified number of reversals and the normal mode is switched to the mode in which the origin position needs to be set again, the reversing operation of the opening / closing member is performed. When the normal reversal operation is performed, when the origin position setting is performed again, the mode in which the origin position setting needs to be performed again is canceled and switched to the normal mode.
When the reversal operation performed by the sandwiching control means is more than a specified number of reversals and the normal mode is switched to the mode in which the origin position needs to be set again, the abnormality reversal detection means detects an abnormality. When reversal is detected, the reset avoidance means cancels the mode in which the home position setting needs to be performed again and switches to the normal mode regardless of whether the home position setting is performed again. Thus, the opening / closing member control apparatus avoids the setting of the origin position again . In the opening-and-closing member control device according to claim 1,
The abnormal inversion detection means includes
Clocking means for timing the reverse operation time by the sandwiching control means;
And determining means for determining whether or not the reversing operation time measured by the time measuring means has exceeded a specified time, and determining that the reversing operation time has exceeded a specified time is abnormal reversal. An opening / closing member control device. In the opening-and-closing member control device according to claim 1 or 2,
The opening / closing member control device according to claim 1, wherein the resetting avoidance unit avoids the setting of the origin position again when the abnormal reversal is detected at least once within the specified number of times. The drive motor opens and closes the opening / closing member, counts based on the rotation of the drive motor, detects the opening / closing position of the opening / closing member based on the count, and operates the opening / closing switch and detects the opening / closing position of the opening / closing member. Based on this, the drive motor is controlled to operate the opening / closing member, and when the opening / closing member is closed, the pinching by the opening / closing member is detected, and when the pinching is detected, the driving motor is reversely rotated to reverse the opening / closing member. To release the pinching,
When the origin position setting for setting the count number to a predetermined count number is performed in a state where the opening / closing member is disposed at a predetermined position, and when the number of reversals in which the reversing operation has been performed exceeds a specified number , while the switched mode that needs cormorants line again the origin position setting from the normal mode to perform the operation of opening and closing member based,
If an abnormal reversal is detected in which the reversing operation of the opening / closing member is not performed even if the pinching by the opening / closing member is detected, the origin of the opening / closing member in the opening / closing member control device which avoids the setting of the origin position again. A position setting method,
When the reversal operation has been performed more than a specified number of times and the normal mode is switched to the mode in which the home position needs to be set again, the reversing operation of the opening / closing member is normal. If it is, when the second origin position setting is performed, the mode that needs to perform the second origin position setting is canceled and switched to the normal mode,
When the number of times of reversal in which the reversing operation has been performed is equal to or greater than a specified number, and when the mode is switched from the normal mode to the setting of the origin position again, and when the abnormal reversal is detected, Regardless of whether or not the origin position is set again, the mode that needs to be set again is canceled and switched to the normal mode, thereby avoiding the setting of the origin position again. An opening / closing member origin position setting method in an opening / closing member control apparatus. In the opening / closing member origin position setting method in the opening / closing member control apparatus according to claim 4,
Measuring the reversal operation time, determining whether the timed reversal operation time exceeds a specified time, and determining that the reversal operation time exceeds a specified time, it is determined that the reversal is abnormal reversal. An opening / closing member origin position setting method in an opening / closing member control device. In the opening / closing member origin position setting method in the opening / closing member control apparatus according to claim 4 or 5,
An opening / closing member origin position setting method in an opening / closing member control apparatus, wherein the origin position setting is avoided again when the abnormal reversal is detected at least once within the specified number of times.

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