1. Field of the Invention
The present invention generally relates to a vehicle having an electric open and close panel such as a power window, and in more particular, to an operation in a close direction of the open and close panel of the vehicle.
2. Description of the Related Art
In a power window device where a window is adapted to be electrically opened and closed are performed an operation (operation in an open direction) for opening the window and an operation (operation in a close direction) for closing the window by a switch for opening and closing the window attached to the door. Furthermore, the switch for the power window has two-stage switch positions such as a first stage for a manual operation and a second stage for an auto operation in any operation direction of opening and closing. In the manual operation a window operates until a time when the switch is operated. In the auto operation a window operation continues until the window is completely closed or opened even if the switch operation is stopped after its operation. For example, when performing an auto up operation, it is possible to completely close a window without holding a switch at a close position.
An operation of closing a window has a pinch prevention function as a handling of having pinched something in closing the window. This function has a function (pinch detection function) of: determining that an impediment is pinched in a closing window when a speed of the window is reduced; and then lowering the window after stopping the operation of closing the window.
On the other hand, due to this pinch detection function, if there occurs a door trouble, for example, such as a deformation of a door sash, there can occur a situation that a reverse operation (hereinafter referred to as “error reversal”) is performed by the pinch detection function and that the window is not completely closed, notwithstanding nothing having been pinched. If so, there are possibilities that: rain drops inside when such rain falls; and something is stolen when a passenger is away from the vehicle. From such viewpoints is requested a complete close mode of intentionally not using the pinch detection.
As an example of the complete close mode there exists a method of changing a safety free switch to a close state by manual, temporarily nullifying a pinch detection, and completely closing a window panel when the window panel is not properly housed in an uppermost position due to the deformation of a door sash as described above (see Japanese Patent Laid-Open Publication No. H 05-47255 (column 8, last page to column 9, line 14 and FIG. 1).
Furthermore, instead of providing an exclusive switch of the complete close mode, there also exists a method of setting the mode in either a manual position or auto position of a window operation switch.
However, in the method of the Japanese Patent Laid-Open Publication No. H 05-47255, it is necessary to provide the safety free switch other than a normal window operation switch. Furthermore, there also exists a problem that a pinch detection is not performed as far as the safety free switch is operated.
Considering the method of setting the complete close mode in a change position of a window operation switch, when setting the mode in a manual position, although during the manual operation is not performed a pinch detection, the method has a same specification as a conventional manual mode system without the pinch detection. When operating the switch until an auto position, although a window cannot be completely closed in such a door trouble that a door sash is deformed because the pinch detection is always performed, it is possible to completely close the window by the manual operation.
Furthermore, if setting the complete close mode in an auto position, in a conventional manual operation is performed a pinch detection; if operating the switch until the auto position, the pinch detection is stopped. In other words, as far as operating the switch to a position where the complete close mode is performed, because the method surely becomes the mode notwithstanding having the pinch detection, there exists a problem of frequently using the mode of not detecting a pinch more than necessary.
Accordingly, there is a need for an open and close panel system of a vehicle having a pinch detection function that enables a complete close mode to be used as requested without needing special hardware.
A first aspect of a vehicular open and close panel system of the present invention comprises a drive means configured to supply power for sliding, and opening and closing a panel to open and close an opening of a vehicle body; a drive mechanism configured to operate the panel by power from the drive means; and a controller configured to control an operation of the panel, wherein the controller includes a pinch detection mode of making the panel perform a pinch elimination operation upon detecting a pinch in a close direction operation, and a complete close mode of prioritizing a close direction operation, depending on a complete close operation of a passenger, and wherein after performing the pinch detection operation by the pinch detection mode, the controller changes the close direction operation to the complete close mode until a predetermined condition is satisfied.
In accordance with the vehicular open and close panel system, because after performing the pinch detection operation by the pinch detection mode, the controller changes the close direction operation to the complete close mode until a predetermined condition is satisfied, if a passenger instructs a close operation (the passenger being determined to have an intention of completely closing the panel) after the pinch detection operation, it is possible to completely close the open and close panel without failure.
A second aspect of a vehicular open and close panel system of the present invention is characterized in that the controller performs a pinch detection operation by the pinch detection mode, then changes the close direction operation to the complete close mode until completely closing the panel, and then after completely closing the panel, again changes the complete close mode to the pinch detection mode.
In accordance with this configuration, because after completely closing the panel, the controller again changes the complete close mode to the pinch detection mode, it is possible to properly perform a pinch detection by making the pinch detection effective except for a time when a complete close operation of the panel is requested.
A third aspect of a vehicular open and close panel system of the present invention is characterized in that the controller performs a pinch detection operation by the pinch detection mode, then changes the close direction operation to the complete close mode until a predetermined time elapses, and then after the predetermined time elapsing, again changes the complete close mode to the pinch detection mode.
In accordance with this configuration, because after a predetermined time (for example, one to two minutes) elapsing, the controller again changes the complete close mode to the pinch detection mode, it is possible to properly perform a pinch detection by making the pinch detection effective except for a time when a complete close operation of the panel is requested.
A fourth aspect of a vehicular open and close panel system of the present invention is characterized in that the controller performs a pinch detection operation by the pinch detection mode, then changes the close direction operation to the complete close mode until an ignition switch of a vehicle is made OFF, and then after the ignition switch of the vehicle being made OFF, again changes the complete close mode to the pinch detection mode.
In accordance with this configuration, because after an ignition switch of a vehicle being made OFF and again made ON, the controller again changes the complete close mode to the pinch detection mode, it is possible to properly perform a pinch detection by making the pinch detection effective except for a time when a complete close operation of the panel is requested.
Here will be described the present invention in detail according to embodiments of the invention and attached drawings. In addition, a same reference symbol will appended to a same element in a case of indicating it in a plurality of drawings.
The regulator 60 comprises a rail 62, brackets 64 configured to fix the rail 62 at a door lower portion of the door main body 25, and a slide portion 66 configured to be slidably attached to the rail 62. The drive unit 70 comprises a motor 78 of a drive source of the door glass 30; a position sensor 72 configured to detect a position of the door glass 30, based on a signal from a motor driving circuit not shown; and a power window (PW) main control unit 76 configured to control a rotation of the motor 78, based on signals from the position sensor 72 and the main switch unit 74. In addition, the PW main control unit 76 may also be arranged not inside the drive unit 70, but inside the switch unit 74.
The main switch unit 74, drive unit 70, FR door regulator 60, and FR window glass (FRW panel) 30 driven by the regulator 60 configure, as shown in
The PW main control unit 76 is a well known microcomputer including such a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory) not shown. The PW main control unit 76, as needed, uses the pulses received from the position sensor 72, respectively calculates a rotation speed of the motor 78 based on a pulse frequency and a current position of the door glass 30 based on the pulse number, and memorizes them. Furthermore, in the embodiment, calculating a rotation speed, the PW main control unit 76 makes it a current value and reads a previous rotation speed memorized in the memory as a previous value, compares the current value with the previous value (the current value-the previous value), and thus calculates a rotational variation quantity of the motor 78. Comparing the rotational variation quantity with a pinch determination threshold memorized in advance, when the rotational variation quantity is not less than the pinch determination threshold, the PW main control unit 76 determines that a foreign matter is pinched between the door glass 30 and the window frame.
The main switch unit 74 of the front right door 20 comprises not only switches for opening and closing the door glass 30 of the door 20 and individual switches for opening and closing those of the doors 21, 22, and 23, but also a switch for simultaneously opening and closing those of all the doors 20 to 23. Furthermore, accordingly, the PW main control unit 76 of the front right door 20 is connected so as to be able to respectively send control signals to PW main control units 76a of the other windows 21 to 23.
Excluding the above mentioned matters, because there exists no difference between the FR power window system 2 of the door 20 and other FL, RR, and RL power window systems 2a, a description will be made, taking the system 2 of the door 20 as an example; a content thereof is also applied to the system 2a. In addition, as mentioned above, although there exist five switches in the main switch unit 74, in order to equally handle it with the switch unit 74a of the doors 21-23 in a description below, a switch for operating the door glass 30 of the door 20 is called “switch 24” for convenience.
In a not shown volatile memory (for example, such a ROM) of the PW main control unit 76 is stored a power window control program configured to realize a power window control operation according to an embodiment of the present invention by a not shown CPU executing the program. Although the power window control program is not shown, a structure thereof will be conceptually described according to a flowchart. The power window control program has a pinch detection processing function of detecting a pinch occurrence and reversely operating the door glass 30 in the occurrence; an operation mode with a pinch detection or an operation function with the pinch detection of opening and closing the glass 30 while performing the pinch detection, based on an instruction of a passenger; and a complete close mode or complete close function of performing a close direction operation without performing the pinch detection after the detection.
In
On the other hand, in the determination step S20 of
Thus, according to the steps S6 to S11 is performed the manual close operation of the pinch detection mode.
On the other hand, in the determination step S6 of
Thus, according to the steps S14 to S16 is performed the auto close operation of the pinch detection mode.
Next will be described a close direction operation after a pinch detection according to an embodiment of the present invention, referring to
In the determination step S50, if the switch position is not OFF, the PW main control unit 76 determines in a determination step S51 whether or not the switch position is one of the manual close position and the auto close position. In the determination step S51, if the switch position is one of the manual close position and the auto close position (in a case of Yes), the PW main control unit 76 performs a predetermined close operation in a step S52 and determines in a step S54 whether or not the panel position is at the upper limit. If the panel position is not at the upper limit, the processing returns to the step S50. In the determination step S54, if the determination is Yes, it means that the door glass 30 is completely closed; therefore, in a step S56 the PW main control unit 76 resets the pinch detection flag, and the processing returns to the main routine. On the other hand, in the determination step S51, if the switch position is not any one of the manual close position and the auto close position, the PW main control unit 76 definitely performs an open operation; however, from the above mentioned reason will be omitted a description of the open operation.
Thus, according to the steps S50 to S54 is performed the complete close operation (that is, the complete close operation is performed while the switch position is maintained at any one of the manual close position and the auto close position) even if the any one is selected, as far as a predetermined condition is not satisfied after the pinch detection processing is performed.
A manner of the operation of the first embodiment thus described is shown in
In addition, as the predetermined condition for resetting the set pinch detection flag are cited the following cases: firstly, the case of Yes in the determination step S54 of
A timer interruption processing will be described, referring to
In the determination step S32, if t≠0 (in a case of No), the PW main control unit 76 decrements the timer variable t in a step S36 and determines in a step S38 whether or not t=0. If t≠0 (in the case of No), the processing returns to the main routine to further measure the time; if t=0 (in the case of Yes), the PW main control unit 76 resets the pinch detection flag in a step S40, and the processing returns to the main routine because the predetermined time T definitely has elapsed.
Thus by using a timer, it is possible to limit a period, when a complete close operation after a pinch detection processing is performed, to nothing but the predetermined time T. Accordingly, by properly setting the predetermined time T, in a case of a pinch detection processing is once performed, it is possible to evade a state of a close operation being performed with the complete close mode even under a situation where the close mode has become not to be requested.
Of course, as a modification of the embodiment, a mode of not using a timer can be considered. In this case, as shown in
In the step S60, if the switch position is not OFF, the PW main control unit 76 determines in a determination step S62 whether or not the switch position is the manual close position. If the switch position is the manual close position (in a case of Yes), the PW main control unit 76 performs a predetermined close operation in a step S63, performs the pinch detection processing of
In the determination step S62, if the switch position is not the manual close position, the processing proceeds to the step S50 of
In addition, in a case of the switch position being the auto close position is also enabled a mode of performing steps S71 to S76 (auto close operation of the pinch detection mode) of
On the other hand, in the determination step S62, if the switch position is not the manual close operation (in the case of No), the PW main control unit 76 determines in the determination step S70 whether or not the switch position is the manual close operation. If the switch position is not the manual close operation (in a case of No), the PW main control unit 76 performs the open operation. In the determination step S70, if the switch position is the manual close operation (in a case of Yes), the PW main control unit 76 performs a predetermined close operation in the step S71, performs the pinch detection processing in the step S72, and determines in the determination step S74 whether or not the panel position is at the upper limit. If the panel position is not at the upper limit, the processing returns to the step S71 and performs the auto close operation of the pinch detection mode. In the determination step S74, if the panel position is at the upper limit, the PW main control unit 76 resets the pinch detection flag in the step S76, and the processing returns to the main routine.
Furthermore, in accordance with the third embodiment, in nothing but the manual close operation in a case of the switch position being changed from OFF to the manual close position is set such a complete close mode that the pinch detection is not performed.
The above is intended to only enumerate examples of the embodiments in order to describe the present invention. Accordingly, along any of the technical spirit and principle of the present invention, it would be easy for those skilled in the art to perform various any of changes, modifications, and additions for the embodiments.
For example, although in the embodiments the PW control units 76 and 76a perform the pinch detection (in the step S20 of
Number | Date | Country | Kind |
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2006-012001 | Jan 2006 | JP | national |
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Number | Date | Country |
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05-047255 | Feb 1993 | JP |
Number | Date | Country | |
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20070169418 A1 | Jul 2007 | US |