JPH08189252A - Power window driving device - Google Patents

Abstract

PURPOSE: To substantially simultaneously open and close plural windows in a short time by driving the respective windows with the delay time which is different between the starting time of the window and the lock operating time. CONSTITUTION: At the time of starting plural windows by a power window motor 4, the peak value of a driving current of the power window motor 4 is obtained corresponding to the respective windows. Subsequently, the mutual overlap of the peak values is eliminated and a different delay time is set to start the power window motor 4. Also at the time of locking the window, a mutual overlap of peak values of a driving current of each window motor 4, and a different delay time is set to conduct the lock operation. Thus, plural windows can be started and locked substantially simultaneously so that the driving time for the windows can be reduced remarkably as compared with the conventional device.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power window driving device for opening and closing a plurality of windows by the driving force of a motor, and more particularly, when the windows are started and locked, different delay times are provided for each window. The present invention relates to a drive device for a power window that drives a motor.

[0002]

2. Description of the Related Art Conventionally, for example, in a power window used in a vehicle, it is desired to have a structure in which a plurality of windows are simultaneously driven. However, in order to drive a plurality of windows at the same time, it is necessary to drive a plurality of motors at the same time, so a large current flows at a time. In particular, when the motor is started or the window is locked, the amount of current required to increase the torque that acts on the motor is large, which necessitates a large capacity for wiring, fuses, etc., which increases the weight of the wire harness and There was a problem of increasing costs.

Therefore, as a solution to such a problem, as shown in JP-A-1-192980, the operating state of each window is monitored, first the first window is driven, and the lock is performed. There is known a device configured to drive the second window and lock the second window after the lock of the first window is completed.

[0004]

However, in the above configuration, since the windows are driven and locked one by one, it takes a lot of time until all the windows are locked, which is not convenient. There's a problem.

Therefore, an object of the present invention is to provide a power window driving device which opens and closes a plurality of windows substantially simultaneously in a short time.

[0006]

In order to solve the above problems, the structure of the present invention is a power window drive device for opening and closing a plurality of windows by the driving force of a plurality of motors. Drive means for driving and stopping in opposite directions, a plurality of current detecting means for detecting the drive current of each motor, a switch for instructing simultaneous opening and closing of all windows, and a signal from this switch,
Control means for controlling the drive of each motor via the drive means, and at the time of starting each window, the control means have different delays so that the peaks of the detection values of the current detection means do not overlap each other after the switch signal is input. Give time,
It is characterized in that the driving means is controlled to drive each motor sequentially.

The structure of the second invention is a power window driving device for opening and closing a plurality of windows by driving force of a plurality of motors, and driving means for driving and stopping each motor in both forward and reverse directions. , A plurality of current detection means for detecting the drive current of each motor, a switch for instructing simultaneous opening and closing of all windows, and a control means for receiving the signal from this switch and controlling the drive of each motor via the drive means And a plurality of position detecting means for detecting the position of the upper end of each window.When each window is locked, the control means inputs the output value of each position detecting means, and the upper end of each window has a predetermined value near the fully closed position. When each position is reached, each window is temporarily stopped, and then a different delay time is set so that the peaks of the detection values of the current detection means do not overlap each other. Te, and characterized in that by controlling the driving means sequentially drives the respective motors.

A third aspect of the present invention is a power window driving device for opening and closing a plurality of windows by the driving force of a plurality of motors, and driving means for driving and stopping each motor in both forward and reverse directions, and A plurality of current detection means for detecting the drive current of the motor, a switch for instructing simultaneous opening and closing of all windows, a control means for receiving the signal from this switch and controlling the drive means, and detecting the position of the upper end of each window And a plurality of position detecting means for
At the time of starting each window, the control means sets each delay time such that the peaks of the detected values of the current detection means do not overlap each other after the signal input of the switch, drives each motor through the drive means, and When the window is locked, the control means inputs the output value of each position detecting means, and when the upper end of each window reaches a predetermined position near the fully closed position, temporarily stops each window and then detects each current. It is characterized in that different delay times are provided so that the peaks of the detection values of the means do not overlap each other, and the driving means is controlled to drive each motor.

[0009]

[Operation and effect] The first operation is that, at the time of starting each window, the control means controls the drive means by providing different delay times so that the peak values of the drive currents of the motors do not overlap each other after the switch signal is input. Then, each motor is sequentially driven. The effect is that the drive delay of each window can be suppressed to about 200 ms without increasing the capacity of the power window drive device, and a plurality of motors can be driven almost simultaneously. It can be driven and the window can be started. (Claims 1 and 3)

The second action is that when the windows are locked, the control means inputs the output values of the position detecting means,
When the upper end of each window reaches a predetermined position near the fully closed position, each window is temporarily stopped, and then a different delay time is provided so that the peak values of the drive current of each motor do not overlap with each other, and the drive means is set. This is to control and drive each motor, and the effect thereof is to lock a plurality of windows at substantially the same time without increasing the capacity of the drive device for the power window. (Claims 2 and 3)

[0011]

EXAMPLES The present invention will be described below based on specific examples. FIG. 1 shows the configuration of the first embodiment of the present invention, in which a power window driving device 10 is a signal for instructing simultaneous up or down of all windows A ′ to D ′ (not shown). Auto switch 1 which emits
Devices A to D are provided in four windows A'to D '. Among these devices, the configuration for driving the window C ′ provided in the device C will be described below as an example.

A power window motor 4 for driving the window C ', a battery + B for supplying current to the power window motor 4, and a relay 3 for supplying current from the battery + B to the power window motor 4 by conduction (corresponding to driving means). , A control circuit 2 including a microcomputer for controlling conduction of the relay 3
(Corresponding to a control unit), a current detection resistor 5 (corresponding to a current detection unit) for detecting a drive current of the power window motor 4, and an output corresponding to the rotation speed of the power window motor 4 for detecting the position of the window C ′. It is composed of a hall sensor 6 (corresponding to a position detecting means) for performing. Further, other devices have the same configuration.

Next, the control at the time of starting each of the windows A'to D'will be described. When an up or down signal is input from the auto switch 1 to the control circuit 2 of each window A ′ to D ′, each control circuit 2 sets a different delay time to make the relay 3 conductive. At this time, the driving order of the windows A ′ to D ′ is set in advance, and for example, the window A ′, the window B ′, the window C ′, and the window D ′ are driven in this order.

FIG. 2 shows the time course of the drive current of each power window motor 4 in each of the windows A'to D'detected by the current detection resistor 5.
When the signal is output from the auto switch 1 to the control circuit 2, the window A ′ is immediately displayed, that is, at the time t in the figure.
Driven at ₀ . Power window motor 4 for driving window A'when window A'is driven
The driving current of shows a peak at the start-up, but thereafter decreases and stabilizes.

When the driving current of the power window motor 4 for driving the window A'passes its peak, that is, at time t ₁ , the driving of the window B'is started. In the case of the window B ′ as well, the drive current of the power window motor 4 for driving the window B ′ shows a peak at the time of start-up, but thereafter decreases and stabilizes, so that when the peak value is passed, that is, at time t _2. Start driving the window C ′ at. Similarly, the drive of the window D ′ is started at the time when the drive current of the power window motor 4 for driving the window C ′ has passed its peak, that is, at time t ₃ .

Each window A'by the method shown above
-By driving D ', each window A'-
Since the peak values of the drive currents of the power window motor 4 for driving D ′ do not overlap each other, a large amount of current is not required at one time, and each window A ′
Since the driving start time difference of ~ D 'is about 200 ms, it is possible to drive the four windows A' ~ D 'almost at the same time, and it is possible to drive the four windows A'to D'without increasing the capacity of the driving device, as compared with the conventional device. It is possible to drive multiple windows in a short time.

Next, the control when the windows A'-D 'are locked will be described. The respective control circuits 2 corresponding to the windows A ′ to D ′ count the pulses according to the rotation speed of the power window motor 4 and detect the upper end positions of the windows A ′ to D ′.

When each of the windows A'-D 'reaches a predetermined position near the fully closed position, each control circuit 2 makes the relay 3 non-conductive and stops the current supply to each power window motor 4. . As a result, each power window motor 4 is stopped and each window A'-
D'is temporarily stopped at a predetermined position.

After that, after the lapse of time more than the time required for the last door to be fully closed, that is, all the windows A '...
After the time t _{8 when} D ′ can reach a predetermined position near the fully closed position from the fully open position (usually about 5 seconds), each control circuit 2
Different delay times are provided so that the peak values of the drive currents of the power window motors 4 do not overlap, and the locking operation of the windows A ′ to D ′ is controlled in a predetermined order.

[0020] For example, the window A locking operation ', the window B', the window C ', the window D' if performed in the order of, begins locking operation window A 'time t _9, the locking operation to the time t ₁₀ If you complete
The window B ′ starts the lock operation at time t ₁₁ after the time t _{10 when} the window A ′ completes the lock operation.
Similarly, the window C ′ starts the lock operation at time t ₁₃ after the time t _{12 when} the window B ′ completes the lock operation, and the window D ′ similarly performs the lock operation.

Each window A'by the method shown above
Power window motor 4 that locks each window A'to D'by performing locking operation of ~ D '
Since the peak values of the drive currents of A do not overlap, a large amount of current is not required at one time, and four windows A '
It is possible to drive ~ D 'almost at the same time, and it is possible to drive a plurality of windows in a shorter time without increasing the capacity of the device as compared with the conventional device.

Next, a second embodiment will be described with reference to FIG. The difference from the first embodiment is that in the first embodiment the control circuit 2 is provided for each window A'-D ', but in the second embodiment one control circuit 2 is used for all the windows A'-D'. The control of D'is performed, and the configuration is more compact than that of the first embodiment.

In the control at the time of driving each window A'to D ', in the first embodiment, the configuration is such that the windows are driven in a preset order, but in the present embodiment, the detected value of the hall sensor 6 is read and By driving from the open window, that is, the window requiring the operation time, the driving time of the windows A ′ to D ′ can be further shortened as compared with the first embodiment.

Further, in the control during locking of the window a'-d ', after the window was last driven in a first embodiment of a time required for fully closed (approximately 5 seconds), i.e., the time t ₈ after later it is configured to initiate a lock operation, the last window has reached a predetermined position near the fully closed position in this embodiment, i.e., each window A'~ after time t ₇
Since the lock operation of D ′ can be performed, the lock operation time of the windows A ′ to D ′ can be further shortened as compared with the first embodiment.

If the window has already reached a predetermined position near the fully closed position at the time of inputting a signal from the auto switch 1 or is in a locked state, the control circuit 2 only locks the window. To do. For example,
If the window A 'has reached a predetermined position near the fully closed position, or, when in the locked state, the control circuit 2 may be performed only lock operation from time t _4.

Completion of the lock operation of each window A'-D 'is performed in advance by the power window motor 4 at the time of the lock operation.
The current value flowing in the power window motor 4 is detected, and the control circuit 2 detects the drive current of the power window motor 4 using the current detection resistor 5 to check whether the current value flowing in the lock operation is flowing in the power window motor 4 or not. After confirmation, the relay 3 is turned off.

In the above first and second embodiments,
At the time of starting the power window motor 4, it is configured to start with different delay times so that the peaks of the driving currents do not overlap with each other. However, among the four power window motors 4, the peak value of any two driving currents is set. May overlap.

Further, when the windows A'-D 'are locked, the peak values of the current values flowing through the power window motors 4 do not overlap with each other, but first reach a predetermined position near the fully closed position. The opened window may be locked even when another window has not reached a predetermined position near the fully closed position. In this embodiment, a system including four windows A ′ to D ′ has been shown, but it is sufficiently effective to use two or more windows.

As indicated above, according to the present invention,
When starting a plurality of windows, the power window motor 4 is started by providing different delay times so that the peak values of the drive currents of the power window motors 4 corresponding to the respective windows do not overlap each other. It is possible to start a plurality of windows almost at the same time without increasing the capacity of the driving device as compared with a device that drives one by one as described above. Further, even when the windows are locked, a plurality of windows can be locked almost simultaneously by performing the locking operation by providing different delay times so that the peak values of the drive currents of the power window motors 4 do not overlap each other. . Therefore, a plurality of windows can be started and locked almost at the same time, and the driving time of the windows can be significantly shortened as compared with the conventional example.

[Brief description of drawings]

FIG. 1 is a structural diagram showing a configuration of a first embodiment according to the present invention.

FIG. 2 is a schematic diagram showing the time transition of the drive current of the power window motor in the first embodiment.

FIG. 3 is a structural diagram showing a configuration of a second embodiment according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 auto switch 2 control circuit (control means) 3 relay (driving means) 4 power window motor 5 current detection resistance (current detection means) 6 hall sensor (position detection means) 10 power window drive device

Claims (3)

[Claims] 1. A drive device for a power window that opens and closes a plurality of windows by the drive force of a plurality of motors, comprising: a drive means for driving and stopping each motor in both forward and reverse directions; and a drive current for each motor. A plurality of current detection means for detecting, a switch for instructing simultaneous opening and closing of all windows, and a control means for receiving a signal from the switch and controlling the drive of each motor via the drive means, At the time of starting each of the windows, the control means controls the driving means by providing different delay times after the signal of the switch is input so that the peaks of the detection values of the current detection means do not overlap with each other. A power window drive device characterized by sequentially driving a motor. 2. A power window driving device for opening and closing a plurality of windows by driving force of a plurality of motors, comprising driving means for driving and stopping the respective motors in both forward and reverse directions, and a driving current for the respective motors. A plurality of current detection means for detecting, a switch for instructing simultaneous opening and closing of all windows, a control means for receiving a signal from the switch and controlling the drive of each motor via the drive means, A plurality of position detecting means for detecting the position of the upper end of the window, when the windows are locked,
The control means inputs the output value of each of the position detecting means,
When the upper end of each window reaches a predetermined position near the fully closed position, each window is temporarily stopped, and then a different delay time is provided so that the peaks of the detection values of the current detection means do not overlap each other. A power window driving device, characterized in that the driving means is controlled to sequentially drive the respective motors. 3. A drive device for a power window that opens and closes a plurality of windows by the drive force of a plurality of motors, comprising drive means for driving and stopping each motor in both forward and reverse directions, and a drive current for each motor. A plurality of current detecting means for detecting, a switch for instructing simultaneous opening and closing of all windows, a control means for receiving the signal from the switch and controlling the driving means, and a plurality of detecting a position of an upper end of each window. And a position detecting means of, when starting each of the windows,
The control means provides different delay times such that the peaks of the detected values of the current detection means do not overlap each other after the signal input to the switch, drives the motors via the drive means, and At the time of locking, the control means inputs the output value of each of the position detecting means, and when the upper end of each window reaches a predetermined position near the fully closed position,
The respective windows are temporarily stopped, and after that, different delay times are provided so that peaks of detection values of the respective current detection means do not overlap with each other, and the drive means are controlled to drive the respective motors. Power window drive.