JPH11166353A - Waterproof type power window device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a waterproof type power window device capable of opening a window by operating a window lowering switch, even if an automobile falls in water to be submerged. SOLUTION: This device includes a first series circuit formed by a first switch and a first relay, and a second series circuit formed by a second switch 3 and a second relay 4. One end of the first series circuit is connected to an on-vehicle power supply 13 and the other end is connected to a connection of the second switch 3 and the second relay 4. On end of the second series circut is connected to the on-vehicle power supply 13 and the other end is connected to a connection of the first switch 1 and the first relay 2. In operating the first switch 1, the first relay 2 is energized, and a motor 11 is rotated in one direction by switching the contact 2, to raise a window. In operating the second switch 3, the second relay 4 is energized and the motor 11 is rotated in the other direction by switching the contact 4, to lower the window. The first and second switches 1, 3 are one-circuit two-contact switches, the switching contact during non-operation is grounded, and the switching contact during operation is connected to the on-vehicle power supply 13.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a waterproof power window device, and more particularly, to a case where an automobile falls into water for some reason, a door window can be opened by operating a window lowering switch. And a waterproof power window device.

[0002]

2. Description of the Related Art Generally, a power window device used for a vehicle is flooded with a window up switch and a window down switch when the vehicle falls into the water.
It becomes difficult to maintain an electrically insulated state due to water between the contacts of the switches, and despite the contacts of the window up switch and the window down switch being open,
These contacts become electrically conductive via a relatively small resistance value, and thereafter, even if the window lowering switch is operated, the window lowering operation, that is, the window opening operation cannot be performed.

FIG. 5 is a circuit diagram showing an example of a circuit configuration of a main part of such a known power window device.

[0004] As shown in FIG. 5, the power window device includes a window raising switch 21, a window raising relay 22 and its contacts 22 _1, window lowering switch 2
3, a window lowering relay 24 and its contacts 24 _1,
Automatic window raising switch 25, automatic window lowering switch 26, window opening / closing motor 27, control integrated circuit (IC) 28, vehicle power supply (battery) 29
It consists of

[0005] A window raising switch 21 and a window raising relay 22 are connected in series between a vehicle-mounted power supply 29 and a ground point, and a window lowering switch 23 and a window lowering relay 24 are connected in series. A connection point a between the window up switch 21 and the window up relay 22 is connected to a terminal of the control integrated circuit 28, and a connection point b between the window down switch 23 and the window down relay 24 is connected to a terminal of the control integrated circuit 28. Is done. The automatic window raising switch 25 has one end connected to the connection point a and the other end connected to the terminal of the control integrated circuit 28. The automatic window lowering switch 26 has one end connected to the connection point b and the other end connected to the control integrated circuit. 28 terminals. Contacts 22 ₁ of the window raising relay 22, one end of the movable contact window-opening and closing motor 27, one fixed contact to the onboard power source 29, the other fixed contact is connected to ground. Contact 24 ₁ of the window lowering relay 24, the other end of the movable contact window-opening and closing motor 27, one fixed contact to the onboard power source 29, the other fixed contact is connected to ground. The terminal of the control integrated circuit 28 is connected to the vehicle power supply 29.

[0006] The power window device having the above-mentioned structure operates roughly as follows.

When a driver or the like of a vehicle operates the window raising switch 21, the contact is closed, and the window raising relay 22 is driven by the vehicle-mounted power supply 29. At this time, the contact 22 ₁ of the window raising relay 22 is switched,
The window opening / closing motor 27 rotates in one direction, whereby the window moves in the ascending direction (the direction in which the window is closed). When the operation of the window raising switch 21 is stopped, the contact is opened, and the window raising relay 22 is opened.
Is stopped, the window opening / closing motor 27 is stopped.
Rotation stops, and the window stops rising. On the other hand, when the window lowering switch 23 is operated, the contact is closed, and the window lowering relay 24 is driven by the vehicle-mounted power supply 29. At this time, contact 2 of window lowering relay 24
4 ₁ is switched, the window opening and closing motor 27 rotates in the other direction, thereby the window moves in the lowering direction (direction of opening the window). When the operation of the window lowering switch 23 is stopped, the contact is opened and the drive of the window lowering relay 24 is stopped, so that the rotation of the window opening / closing motor 27 is also stopped and the window lowering is stopped.

When a driver or the like of an automobile operates the automatic window raising switch 25, the contact is closed and the window raising switch 21 is simultaneously operated to close the contact. By closing the contact point of the window raising switch 21, the window raising relay 22 is driven by the vehicle-mounted power supply 29, and the window opening / closing motor 27 rotates in one direction as in the case where the window raising switch 21 is operated. Moves the window in the ascending direction (the direction in which the window is closed). In addition, by closing both the contact point of the window raising switch 21 and the contact point of the automatic window raising switch 25, the voltage of the connection point a is supplied to the terminal of the control integrated circuit 28, and in response to the supply of the voltage, The voltage of the vehicle-mounted power supply 29 is latched and output to the terminal of the control integrated circuit 28, and this voltage is supplied to the window rising relay 22. For this reason, the operation of the automatic window raising switch 25 is stopped and its contact is opened. At the same time, the operation of the window raising switch 21 is stopped and even if the contact is opened, the output voltage of the terminal is latched. Therefore, the window raising relay 22 continues to be driven, and the window opening / closing motor 27 subsequently rotates in one direction, whereby the window continues to move in the upward direction (the direction for closing the window). The movement of the window in the upward direction (the direction in which the window is closed) is continued until the window is fully closed.

Similarly, an automatic window lowering switch 2
When the switch 6 is operated, the contact is closed and the window lowering switch 23 is simultaneously operated to close the contact.
Also in this case, the above-mentioned window lowering switch 23
Is operated in the same manner as when the
Rotates in the other direction, whereby the window moves in the downward direction (the direction in which the window opens). The contact of the window lowering switch 23 and the automatic window lowering switch 2
7 are closed, the control integrated circuit 2 is closed.
8, the voltage at the connection point b is supplied to the terminal 8 and the voltage of the vehicle-mounted power supply 29 is latched and output to the terminal of the control integrated circuit 28 in response to the supply of the voltage.
This voltage is supplied to the window lowering relay 24. For this reason, the operation of the automatic window lowering switch 26 is stopped,
The contact is opened and at the same time the window lowering switch 23
Is stopped and the output voltage of the terminal is latched, so that the window lowering relay 24 continues to be driven and the window opening / closing motor 27
Then rotates in the other direction, whereby the window continues to move in the downward direction (the direction in which the window opens). And
This movement of the window in the downward direction (the direction in which the window is opened) is continued until the window is fully opened.

[0010]

The above-mentioned known power window device is designed such that when a vehicle falls into the water for some reason and is flooded in the window raising switch 21 and the window lowering switch 23, the contact between the switches 21 and 23 is lost. The leakage resistances 21R and 23R, which have relatively small resistance values due to water, are connected to each other. Although the contacts of the window up switch 21 and the window down switch 23 are open, the window up relay 22 and the window down The output voltage of the in-vehicle power supply 29 is applied to the relay 24 through the leakage resistors 21R and 23R, and the window raising relay 22 and the window lowering relay 24 are simultaneously driven, or the window raising relay 22 and the window lowering relay 24 are simultaneously driven half. So that their contacts 2
Either 2 ₁ , 24 ₁ will be switched at the same time, or their contacts 22 ₁ , 24 ₁ will not be switched to any fixed contact. At this time, even if the driver of the automobile or the like operates the window lowering switch 23 to open the window, the window opening / closing motor 27 is not driven to rotate, and the window cannot be opened.

As described above, the known power window device has a problem that when the vehicle falls into the water and is flooded, it is no longer possible to perform a normal window operation.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and has as its object to provide a waterproof power window in which a window can be opened by operating a window operation switch even when an automobile falls into water and is flooded. It is to provide a device.

[0013]

In order to achieve the above object, a waterproof power window device according to the present invention energizes a first relay when a first switch (window raising switch) is operated, and switches its contact. To rotate the motor in one direction to raise the window, and to activate the second relay when the second switch (window lowering switch) is operated, and to rotate the motor in the other direction by switching its contacts. The first switch (window raising switch) and the second switch (window lowering switch) are composed of two circuits and one contact switch. The first switch (window raising switch) or the second switch (window lowering). Switch), always operate the corresponding first or second relay to move the motor in one direction or the other. It is driven to rotate, comprising means for raising or lowering the window.

According to the means, the vehicle falls into the water,
Even if the first switch (window raising switch) and / or the second switch (window lowering switch) is flooded and the electrical insulation between the contacts is deteriorated, when the first switch (window raising switch) is operated, a corresponding operation is performed. The first relay operates to rotate the motor in one direction to raise the window, and the second switch (window lowering switch)
When the is operated, the corresponding second relay operates to rotate the motor in the other direction to lower the window, so that the second switch (window lowering switch)
By operating, the window is opened and the driver or the like is not trapped in the flooded automobile.

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In one embodiment of the present invention, a waterproof power window device comprises a first series circuit comprising a first switch and a first relay, one end of which is connected to a vehicle-mounted power supply; A second series circuit comprising a second switch and a second relay connected to the vehicle-mounted power supply, the other end of the first series circuit being connected to a connection point between the second switch and the second relay, The other end is connected to a connection point between the first switch and the first relay. When the first switch is operated, the first relay is energized, and by switching the contact, the motor is rotated in one direction to raise the window. , Second
When the switch is operated, the second relay is energized, and the contact is switched to drive the motor to rotate in the other direction to lower the window, and the first switch and the second switch are switched by one circuit and two contacts. The first switch and the second switch are configured such that fixed contacts that are switched during non-operation are grounded, and fixed contacts that are switched during operation are connected to a vehicle-mounted power supply.

[0016] In this case, in one example of one embodiment of the present invention, the waterproof power window device is operated during operation.
An automatic first switch interlocking with the first switch and an automatic second switch interlocking with the second switch are connected in parallel between the vehicle-mounted power supply and the control integrated circuit, and after the operation of the automatic first switch,
A voltage is generated from the control integrated circuit, the first relay is energized with this voltage, the motor is rotated in one direction to raise the window, and after the operation of the automatic second switch,
A voltage is generated from the control integrated circuit, the second relay is energized by this voltage, and the motor is rotated in the other direction to lower the window.

In another embodiment of the present invention,
The waterproof power window device includes a first series circuit including one end connected to a vehicle-mounted power supply and a first relay, and a second series including one end connected to a vehicle-mounted power supply and a second switch and a second relay. A series circuit, the other end of the first series circuit is connected to a connection point between the second switch and the second relay, and the other end of the second series circuit is connected to a connection point between the first switch and the first relay; When the first switch is operated, the second relay is energized, and by switching its contact, the motor is driven to rotate in one direction to raise the window, and when the second switch is operated, the first relay is energized and its contact The motor is rotated in the other direction to lower the window by switching, the first switch and the second switch are constituted by switches of one circuit and two contacts, and the first switch and the second switch are: Fixed contacts which are switched when the operation is connected to the vehicle power supply, in which the fixed contacts are switched during operation is connected to ground.

In this case, in an example of another embodiment of the present invention, the waterproof power window device includes an automatic first switch linked with the first switch and an automatic second switch linked with the second switch when operated. A parallel connection is made between the vehicle power supply and the control integrated circuit. After the automatic first switch is operated, a voltage is generated from the control integrated circuit, the first relay is energized by this voltage, and the motor is rotated in one direction. After the operation of the automatic second switch, a voltage is generated from the control integrated circuit, the second relay is energized with this voltage, and the motor is rotated in the other direction to lower the window. Things.

Further, in a preferred example of the embodiment of the present invention, the waterproof power window device has a configuration in which each component is mounted on a printed circuit board except for a motor and a vehicle-mounted power supply, and a waterproof is attached to each mounted component. The resin mold is applied.

According to these embodiments of the present invention, the vehicle falls into the water and becomes submerged, and the first switch (window raising switch) and / or the second switch (window lowering switch) also floods. Even if the electrical insulation between the contacts is deteriorated, the first switch (window-up switch) and the second switch (window-down switch) are constituted by one-circuit two-contact switches, and one or the other fixed contact is used. And the other or one of the fixed contacts is grounded, and the first
When a switch (window raising switch) is operated, a corresponding first relay is operated, and the motor is driven to rotate in one direction so as to raise the window.
If a switch (window lowering switch) is operated, the corresponding second relay operates, and the motor is rotated in the other direction to operate the window lowering. By operating the second switch (window lowering switch), the motor can be driven to rotate in the other direction to open the window, thereby avoiding a situation in which a driver or the like is trapped in a flooded automobile.

[0021]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a circuit diagram showing a main part of a first embodiment of a waterproof type power window device according to the present invention.

[0023] As shown in FIG. 1, this waterproof power window device includes a window raising switch (the first switch) 1 comprised of first circuit two-contact switch, a window raising relay 2 and the contact 2 _1, 1 A window lowering switch (second switch) 3 comprising a switch having two contacts in the circuit;
The window lowering relay 4 and the contact 4 _1, an automatic window raising switch 5, an automatic window lowering switch 6,
A first backflow prevention diode 7, a second backflow prevention diode 8, a third backflow prevention diode 9, a fourth backflow prevention diode 10, a window opening / closing motor 11, a control integrated circuit (IC) 12, and a vehicle Power supply (battery) 13
It consists of

The movable contact of the window lift switch 1 and the third
The backflow prevention diode 9, the first backflow prevention diode 7, and the window rising relay 2 are connected in series to form a first series circuit. The movable contact of the window down switch 3, the fourth backflow prevention diode 10, the second backflow prevention diode 8, and the window down relay 4 are connected in series to form a second series circuit. In the first series circuit, the window raising switch 1
The one fixed contact (normally closed contact) is connected to ground, the other fixed contact (normally opened contact) is connected to the positive electrode side of the vehicle-mounted power supply 13, and the window rising relay 2 is connected to the other of the first series circuit. The end is connected to the movable contact of the window lowering switch 3 and the connection point b ₁ of the fourth backflow prevention diode 10. Second
In the series circuit, the window lowering switch 3 is configured such that one fixed contact (normally open contact) is grounded and the other fixed contact (normally open contact) is connected to the positive electrode side of the vehicle power supply 13. The other end of the second series circuit is connected to the movable contact of the window lowering switch 3 and the connection point a ₁ of the third backflow prevention diode 9. A connection point a ₂ between the third backflow prevention diode 9 and the first backflow prevention diode 7 is connected to a port of the control integrated circuit 12,
A connection point b ₂ between the fourth backflow prevention diode 10 and the second backflow prevention diode 8 is connected to a port of the control integrated circuit 12.

The automatic window raising switch 5 has a movable contact connected to the positive electrode of the vehicle power supply 13 and a fixed contact connected to a port of the control integrated circuit 12. The automatic window lowering switch 6 has a movable contact connected to the positive electrode side of the vehicle-mounted power supply 13 and a fixed contact connected to a port of the control integrated circuit 12. Contact 2 ₁ of the window raising relay 2,
The movable contact is connected to one end of the window opening / closing motor 11, one fixed contact is connected to the positive electrode side of the vehicle-mounted power supply 13, and the other fixed contact is grounded. Contact 4 ₁ of the window lowering relay 4, the movable contact is connected to the other end of the window opening and closing motor 11, one fixed contact is onboard power source 13
, And the other fixed contact is grounded. The vehicle-mounted power supply 13 has a positive electrode connected to a port of the control integrated circuit 12 and a negative electrode connected to ground.

Further, in the waterproof power window device of the first embodiment, not shown, all components except the window opening / closing motor 11 and the vehicle power supply 13 are mounted on the printed circuit board and mounted on the printed circuit board. All of these arranged components are provided with a waterproof coat. With the adoption of the waterproof resin mold, each component except the window raising switch 1, the window lowering switch 3, the automatic window raising switch 5, and the automatic window lowering switch 6 is subjected to a waterproofing process, and the vehicle is submerged. Even if it is dropped into water, the electrical insulation due to the flooding is rarely damaged.

In this case, regarding the window raising switch 1, the window lowering switch 3, the automatic window raising switch 5, and the automatic window lowering switch 6,
Since it is necessary to extend a movable member (switch operation unit) for operating the switches 3, 5, and 6 from the main body of each of the switches 1, 3, 5, and 6 to a operable region, a portion for extending the movable member from the main body Can not be waterproofed,
When the vehicle is flooded, it is difficult to prevent water from entering the body of each of the switches 1, 3, 5, and 6.

The waterproof power window device of the first embodiment having the above-mentioned structure operates roughly as follows.

When a driver or the like of the automobile operates the window raising switch 1, the movable contact thereof is switched from the normally closed fixed contact side shown to the normally open fixed contact side, and the voltage of the vehicle-mounted power supply 13 is changed to the switched window raising switch. 1. A third backflow prevention diode 9, a first backflow prevention diode 7, a window raising relay 2, and a movable contact reaches a ground point via a window lowering switch 3 which is switched to a normally closed fixed contact side shown in the drawing, and the window rises. The relay 2 is driven. At this time, the contacts 2 ₁ of the window raising relay 2, switched to the reverse connection state from the connection state of the movable contact is shown, the voltage of the onboard power source 13 to the window-opening and closing motor 11 is supplied, the window opening and closing motor 11 in one direction To rotate.
The rotation of the window opening / closing motor 11 in one direction raises the window and closes the window. And
When the operation of the window raising switch 1 is stopped, the movable contact is switched to the normally closed fixed contact shown in FIG.
Is stopped by the window raising switch 1 and the drive of the window raising relay 2 is stopped, so that the rotation of the window opening / closing motor 11 stops, the window raising stops, and the window is held at that position.

On the other hand, when the driver of the automobile operates the window lowering switch 3, the movable contact thereof is switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side, and the voltage of the vehicle-mounted power supply 13 is changed to the switched window. Down switch 3,
The fourth backflow prevention diode 10, the second backflow prevention diode 8, the window lowering relay 4, and the movable contact reach the ground point via the window raising switch 1 that is switched to the normally closed fixed contact side shown in FIG. Is driven. At this time, the contact 4 ₁ of the window lowering relay 4, switches to the reverse connection state from the connection state of the movable contact is shown, the voltage of the onboard power source 13 is supplied to the window opening and closing motor 11, the window opening and closing motor 11 the other direction To rotate. The rotation of the window opening / closing motor 11 in the other direction lowers the window and opens the window. When the operation of the window lowering switch 3 is stopped, the movable contact is switched to the normally closed fixed contact side shown in the figure, the voltage of the vehicle-mounted power supply 13 is blocked by the window lowering switch 3, and the drive of the window lowering relay 4 is stopped. Accordingly, the rotation of the window opening / closing motor 11 stops, the lowering of the window stops, and the window is held at that position.

When the driver or the like of the automobile operates the automatic window raising switch 5, the window raising switch 1 is simultaneously operated in conjunction with the operation, so that the movable contact of the automatic window raising switch 5 is closed and the window raising switch 1 is closed. Are switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side. Window lift switch 1
Is switched to the normally open fixed contact side, the voltage of the vehicle-mounted power supply 13 is applied to the window rising relay 2 via the window rising switch 1, the third backflow prevention diode 9, and the first backflow prevention diode 7, and As in the case where the window raising switch 1 is operated alone, the window raising relay 2 is driven, the window opening / closing motor 11 rotates in one direction, and the window opening / closing motor 11 rotates in one direction to raise the window, Close the window. At this time, since the movable contact of the automatic window raising switch 5 is closed, the voltage of the vehicle-mounted power supply 13 is applied to the port of the control integrated circuit 12, whereby the control integrated circuit 1 is turned on.
2 outputs the voltage of the vehicle-mounted power supply 13 supplied to the port to the port, and supplies the voltage to the window rising relay 2. Here, when the operation of the automatic window raising switch 5 is stopped and the operation of the window raising switch 1 in conjunction therewith is also stopped, the movable contact of the window raising switch 1 is switched from the normally open fixed contact side to the normally closed fixed contact side, In-vehicle power supply 13 to window up relay 2 via window up switch 1
Is stopped, but the supply of the voltage of the vehicle power supply 13 output from the port of the control integrated circuit 12 is latched, and the supply of the voltage of the vehicle power supply 13 to the window rising relay 2 is still continued. Therefore, the window raising relay 2 continues to be driven. Therefore, the window opening / closing motor 11 continues to rotate in one direction, and thereby keeps raising the window. This rising of the window is continued until the window reaches the top of the moving range and the window is fully closed. In this case, the third backflow prevention diode 9 is connected so that all the voltage of the vehicle-mounted power supply 13 output from the port of the control integrated circuit 12 is applied to the window rising relay 2.

Similarly, when the driver of the automobile operates the automatic window lowering switch 6, the window lowering switch 3 is simultaneously operated in conjunction with the operation, so that the movable contact of the automatic window lowering switch 6 is closed and the window lowering switch is closed. The movable contact of the switch 3 is switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side. When the movable contact of the window lowering switch 3 is switched to the normally open fixed contact,
The voltage of the vehicle-mounted power supply 13 is applied to the window descent relay 4 via the window descent switch 3, the fourth backflow prevention diode 10, and the second backflow prevention diode 8, and the window descent switch 3 is operated as described above. The window lowering relay 4 is driven, the window open / close motor 11 rotates in the other direction, and the window open / close motor 11 rotates in the other direction to lower the window and open the window. At this time, when the movable contact of the automatic window lowering switch 6 is closed, the voltage of the vehicle-mounted power supply 13 is applied to the port of the control integrated circuit 12, whereby the control integrated circuit 12 13 is output to the port and supplied to the window lowering relay 4. Here, when the operation of the automatic window lowering switch 6 is stopped and the operation of the window lowering switch 3 that is linked thereto is also stopped, the movable contact of the window lowering switch 3 is switched from the normally open fixed contact side to the normally closed fixed contact side, The supply of the voltage of the vehicle-mounted power supply 13 to the window lowering relay 4 via the window lowering switch 3 is stopped, but the control integrated circuit 1
The supply of the voltage of the vehicle-mounted power supply 13 output from the port 2 is latched, the supply of the voltage of the vehicle-mounted power supply 13 to the window lowering relay 4 is continued, and the window lowering relay 4 continues to be driven. For this reason, the window opening / closing motor 11 continues to rotate in the other direction and keeps moving down the window. The lowering of the window is continued until the window reaches the bottom of the moving range and the window is fully opened. In this case, the fourth backflow prevention diode 10 is connected to the in-vehicle power supply 13 output from the port of the control integrated circuit 12.
Are connected to be applied to the window descending relay 4.

Further, if the vehicle falls into the water for some reason when the window of the vehicle is in a completely closed state or a state close to the completely closed state, the present embodiment attached to the inside of the door The waterproof type power window device is also flooded. In this case, as described above, in the waterproof power window device, most components are waterproofed by a waterproof resin mold. However, the window up switch 1, the window down switch 3, the automatic window up switch 5, Even if the automatic window lowering switch 6 performs the same waterproofing process as other components by resin molding, these switches 1, 3, 5,
Since a movable member (switch operation unit) for operating the switch 6 cannot be completely waterproofed from a portion where the switches 1, 3, 5, and 6 are led out to an operable area, these switches 1, 3, 5, and 6 cannot be completely waterproofed. Water will slightly enter the switches 1, 3, 5 and 6. Then, when water infiltrates into the window up switch 1 and the window down switch 3, respectively, as described above, the leakage resistance due to water having a relatively small resistance value is connected between the movable contact and the normally open fixed contact. However, since the normally-closed fixed contact is connected to the ground, the on-board power supply 13 added to the window up switch 1 and the window down switch 3 is equivalent to the above. Flows to the ground point through the leakage resistance between the movable contact and the normally open fixed contact and the movable contact switched to the normally closed fixed contact, and is not applied to the window rising relay 2 and the window lowering relay 4. . Therefore, both the contacts 4 ₁ of the contact 2 ₁ and the window lowering relay 4 of the window raising relay 2 is in a connected state shown, the window opening and closing motor 11 is not rotated.

In such a state, when the driver of the vehicle operates the window lowering switch 3, the contact of the window lowering switch 3 is switched from the normally closed fixed contact side to the normally open fixed contact side, and the normally open fixed contact Leakage resistance due to water connected between the movable contact and the contact switch causes a short-circuit due to switching of the contact.At the same time, the normally-closed fixed contact and the movable contact change from a short-circuited state to an open state. Water leakage resistance is connected between the fixed contact and the movable contact. For this reason, the voltage of the vehicle-mounted power supply 13 is supplied to the window descent relay 4 via the window descent switch 3, the fourth backflow prevention diode 10, and the second backflow prevention diode 8 in a short-circuit state, and the window descent relay 4 is driven. You. Then, by driving the window lowering relay 4,
Its contacts 4 ₁ is switched from the connected state shown in the reverse connection state, the voltage of the onboard power source 13 is applied to the window opening and closing motor 11, the window opening and closing motor 11 is rotated in the other direction. As a result, the window is lowered and the window is opened, so that the driver or the like of the vehicle can escape from the opened window.

As described above, in the waterproof power window device of the first embodiment, it is assumed that the vehicle has fallen into the water, whereby the waterproof power window device has been immersed in the water and the water has entered the window lowering switch 3. The window can be opened by operating the window lowering switch 3.

FIG. 2 is a circuit diagram showing a main part of a second embodiment of the waterproof type power window device according to the present invention.

In FIG. 2, the same components as those shown in FIG. 1 are denoted by the same reference numerals.

In the second embodiment, the automatic window raising switch 5 and the automatic window lowering switch 6 are omitted from the first embodiment, and the point that the automatic window raising switch 5 and the automatic window lowering switch 6 are not connected is described. Except for this, the configuration is the same as that of the above-described first embodiment. For this reason,
Further description of the configuration of the second embodiment will be omitted.

The normal operation in the operation of the second embodiment (the operation when the waterproof type power window device is not submerged) is described as follows when raising and lowering the window.
The operation is almost the same as the normal operation of the first embodiment except that the automatic operation using the automatic window raising switch 5 and the automatic window lowering switch 6 cannot be performed. Therefore, further description of the normal operation of the second embodiment will be omitted.

Further, the operation at the time of flooding in the operation of the second embodiment (the operation at the time when the waterproof type power window device is flooded) is exactly the same as the operation at the time of flooding of the first embodiment. The operation and effect of the second embodiment are the same as the operation and effect of the first embodiment because the operation at the time of flooding is the same as the operation of the first embodiment. For this reason, further description of the operation at the time of flooding of the second embodiment and the operation and effect achieved by the second embodiment will be omitted.

FIG. 3 is a circuit diagram showing a main part of a third embodiment of the waterproof type power window device according to the present invention.

In FIG. 3, the same components as those shown in FIG. 1 are denoted by the same reference numerals.

The difference between the third embodiment and the first embodiment is that the first embodiment is configured to operate the control integrated circuit 12 in the positive logic state. Third
In the embodiment, the configuration is changed so that the control integrated circuit 12 operates in the negative logic state.

That is, the one-circuit, two-contact window raising switch 1 has a normally closed fixed contact connected to the vehicle power supply 13, a normally open fixed contact grounded, and a movable contact directly connected to one end of the window lowering relay 4 for control. Connected to a port of the integrated circuit 12. The one-circuit, two-contact window lowering switch 3 has a normally-closed fixed contact connected to the vehicle-mounted power supply 13, a normally-open fixed contact connected to ground, and a movable contact directly connected to one end of the window raising relay 2 and a port of the control integrated circuit 12. Connected to. The other end of the window rising relay 2 has a direct control integrated circuit 12.
, And to one end of the window lowering relay 4 via the first backflow prevention diode 7. The other end of the window lowering relay 4 is directly connected to a port of the integrated circuit for control 12, and connected to one end of the window raising relay 2 via the second backflow prevention diode 8. The other configuration is the same as the configuration of the first embodiment.

The waterproof power window apparatus according to the third embodiment having the above-described structure operates roughly as follows.

When a driver or the like of the automobile operates the window raising switch 1, the movable contact thereof is switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side, and the movable contact is grounded. At this time, the voltage of the in-vehicle power supply 13 is such that the movable contact is switched to the illustrated normally closed fixed contact side, the window lowering switch 3, the window rising relay 2, the first backflow prevention diode 7, and the movable contact is the normally opened fixed contact side. Reaches the ground point via the window raising switch 3 which has been switched to, and the window raising relay 2 is driven. At this time, the window lifting contacts 2 ₁ of the relay 2 is switched to the connection state of the reverse from the connected state of the movable contact is shown, the voltage of the onboard power source 13 to the window-opening and closing motor 11 is supplied to the window-opening and closing motor 11 in one direction Rotate. The rotation of the window opening / closing motor 11 in one direction raises the window and closes the window. When the operation of the window raising switch 1 is stopped, the movable contact is switched to the normally closed fixed contact side shown in the figure, and the connection to the ground point is changed to the window raising switch 1.
And the drive of the window raising relay 2 stops, so that the rotation of the window opening / closing motor 11 stops,
The lifting of the window stops and the window is held in that position.

On the other hand, when the driver or the like of the automobile operates the window lowering switch 3, the movable contact thereof is switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side, and the movable contact is grounded. At this time, the voltage of the vehicle power supply 13 is
Via a window up switch 1, a window down relay 4, a second backflow prevention diode 8 in which the movable contact is switched to the illustrated normally closed fixed contact side, and a window down switch 3 in which the movable contact is switched to the normally open fixed contact side. And the window lowering relay 4 is driven. In this case, the contacts 4 ₁ of the window lowering relay 4 is switched to the reverse connection state from the connection state of the movable contact is shown, the voltage of the onboard power source 13 to the window-opening and closing motor 11 is supplied, the window opening and closing motor 11 the other direction To rotate. The rotation of the window opening / closing motor 11 in the other direction lowers the window and opens the window. When the operation of the window lowering switch 3 is stopped, the movable contact is switched to the normally closed fixed contact shown in the figure, the connection to the ground point is blocked by the window lowering switch 3, and the drive of the window lowering relay 4 is stopped. Accordingly, the rotation of the window opening / closing motor 11 stops, the lowering of the window stops, and the window is held at that position.

When the driver or the like of the automobile operates the automatic window raising switch 5, the window raising switch 1 is simultaneously operated in conjunction with the operation, so that the movable contact of the automatic window raising switch 5 is closed and the window raising switch 1 is closed. Are switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side. Window lift switch 1
Is switched to the normally open fixed contact side, the voltage of the vehicle-mounted power supply 13 is applied to one end of the window raising relay 2 and the ground voltage is applied to the other end of the window raising relay 2, respectively. In the same manner as in the case where is operated alone, the window raising relay 2 is driven, the window opening / closing motor 11 rotates in one direction, and the window opening / closing motor 11 rotates in one direction to raise the window and close the window. At this time, since the movable contact of the automatic window raising switch 5 is closed, the voltage of the vehicle power supply 13 is applied to the port of the control integrated circuit 12,
Thereby, the control integrated circuit 12 outputs the ground voltage to the port and supplies it to the window rising relay 2. here,
When the operation of the automatic window raising switch 5 is stopped and the operation of the window raising switch 1 linked thereto is also stopped, the movable contact of the window raising switch 1 is switched from the normally open fixed contact side to the normally closed fixed contact side, and the window raising switch is turned on. 1
The supply of the ground voltage to the other end of the window raising relay 2 via the switch is stopped, but the supply of the ground voltage output from the port of the control integrated circuit 12 is latched, and the other end of the window raising relay 2 is still Since the supply of the ground voltage to the power supply is maintained, the window raising relay 2 continues to be driven. Therefore, the window opening / closing motor 11 continues to rotate in one direction, and thereby keeps raising the window. This rising of the window is continued until the window reaches the top of the moving range and the window is fully closed. In this case, the first backflow prevention diode 7 is connected such that the ground voltage output from the port of the control integrated circuit 12 is directly applied to the other end of the window rising relay 2.

Similarly, when the driver of the automobile operates the automatic window lowering switch 6, the window lowering switch 3 is simultaneously operated in conjunction with the operation, so that the movable contact of the automatic window lowering switch 6 is closed and the window lowering switch is closed. The movable contact of the switch 3 is switched from the illustrated normally closed fixed contact side to the normally opened fixed contact side. When the movable contact of the window lowering switch 3 is switched to the normally open fixed contact,
The voltage of the vehicle-mounted power supply 13 is applied to one end of the
The ground voltage is applied to the other ends of the window lowering relays 4, respectively, and the window lowering relay 4 is driven and the window opening / closing motor 11 rotates in the other direction, as in the case where the window lowering switch 3 is operated alone. The rotation of the window opening / closing motor 11 in the other direction lowers the window and opens the window. At this time, since the movable contact of the automatic window lowering switch 6 is closed, the voltage of the vehicle-mounted power supply 13 is applied to the port of the control integrated circuit 12, and the control integrated circuit 12 outputs the ground voltage to the port. To the window lowering relay 4. Here, when the operation of the automatic window lowering switch 6 is stopped and the operation of the window lowering switch 3 that is linked thereto is also stopped, the movable contact of the window lowering switch 3 is switched from the normally open fixed contact side to the normally closed fixed contact side, The supply of the ground voltage to the other end of the window lowering relay 4 via the window lowering switch 3 is stopped, but the supply of the ground voltage output from the port of the control integrated circuit 12 is latched and the window lowering relay 4 is still , The supply of the ground voltage to the other end is continued, and the window lowering relay 4 continues to be driven.
For this reason, the window opening / closing motor 11 continues to rotate in the other direction and keeps moving down the window. The lowering of the window is continued until the window reaches the bottom of the moving range and the window is fully opened. In this case, the second backflow prevention diode 8 is connected so that the ground voltage output from the port of the control integrated circuit 12 is directly applied to the window lowering relay 4.

Further, when the vehicle falls into the water while the window of the vehicle is in a completely closed state or a state close to the completely closed state, the waterproof power window device of the third embodiment inside the door is also flooded. State. In this case, in the waterproof power window device of the third embodiment, as in the first and second embodiments, most of the components are waterproofed by the waterproof resin mold. , The window lowering switch 3, the automatic window raising switch 5, and the automatic window lowering switch 6, even if the same waterproof treatment as that of the other components is performed by resin molding, these switches 1, 3, 5, 6 A movable member for operating the
Water cannot enter the switches 1, 3, 5, and 6 slightly, because the parts that lead out from the main bodies 5 and 6 to the operable area cannot be completely waterproofed. Then, when water infiltrates into the window up switch 1 and the window down switch 3, respectively, as described above, the leakage resistance due to water having a relatively small resistance value is connected between the movable contact and the normally open fixed contact. However, the window up switch 1 and the window down switch 3 each have a normally-closed fixed contact connected to the vehicle-mounted power supply 13, and a ground voltage is applied to the window up switch 1 and the window down switch 3. Therefore, the voltage of the in-vehicle power supply 13 flows to the ground point through the movable contact switched to the normally closed fixed contact and the leakage resistance between the movable contact and the normally open fixed contact. The voltage of the vehicle-mounted power supply 13 is not applied to one end of the descending relay 4 and the ground voltage is not applied to the other end. Therefore, both the contacts 4 ₁ of the contact 2 ₁ and the window lowering relay 4 of the window raising relay 2 is in a connected state shown, the window opening and closing motor 1
1 is not driven to rotate.

In such a state, when the driver of the vehicle operates the window lowering switch 3, the contact of the window lowering switch 3 is switched from the normally closed fixed contact side to the normally open fixed contact side, and the normally open fixed contact Leakage resistance due to water connected between the movable contact and the contact switch causes a short-circuit due to switching of the contact.At the same time, the normally-closed fixed contact and the movable contact change from a short-circuited state to an open state. Water leakage resistance is connected between the fixed contact and the movable contact. At this time, the voltage of the vehicle-mounted power supply 13 is supplied via the window up switch 1, the window down relay 4, the second backflow prevention diode 8, and the movable contact of the window down switch 3 switched to the normally open fixed contact side in the short-circuit state. After reaching the ground point, the window lowering relay 4 is driven. When the window lowering relay 4 is driven, the contact 4 ₁
Is switched from the illustrated connection state to the opposite connection state, the voltage of the vehicle-mounted power supply 13 is applied to the window opening / closing motor 11, and the window opening / closing motor 11 is driven to rotate in the other direction. As a result, the window is lowered and the window is opened, so that the driver or the like of the vehicle can escape from the opened window.

As described above, in the waterproof power window device according to the third embodiment, it is assumed that the vehicle falls into the water, whereby the waterproof power window device is immersed in the water, and water enters the window lowering switch 3. The window can be opened by operating the window lowering switch 3.

FIG. 4 is a circuit diagram showing a main part of a fourth embodiment of the waterproof type power window device according to the present invention.

In FIG. 4, the same components as those shown in FIG. 3 are denoted by the same reference numerals.

In the fourth embodiment, the automatic window raising switch 5 and the automatic window lowering switch 6 are omitted from the third embodiment, and the point that the automatic window raising switch 5 and the automatic window lowering switch 6 are not connected is described. Except for this, the configuration is the same as that of the third embodiment. For this reason,
Further description of the configuration of the second embodiment will be omitted.

The normal operation (operation when the waterproof power window device is not flooded) in the operation of the fourth embodiment is described below. When raising and lowering the window, the automatic window raising switch 5 and the automatic window lowering device are used. Switch 6
Except that it cannot perform automatic operations using
This is almost the same as the normal operation of the third embodiment. Therefore, further description of the normal operation of the fourth embodiment will be omitted.

Further, the operation at the time of flooding in the operation of the fourth embodiment (the operation at the time of flooding of the waterproof type power window device) is exactly the same as the operation at the time of flooding of the third embodiment. Regarding the operation and effect of the embodiment,
Since the operation at the time of flooding is the same as the operation of the third embodiment, the operation and effect of the third embodiment are the same. Therefore, further description of the operation at the time of flooding of the fourth embodiment and the operation and effect achieved by the fourth embodiment will be omitted.

In each of the above embodiments, an example has been described in which a waterproof coat is used to obtain a waterproof power window device. However, the waterproof processing means of the waterproof power window device according to the present invention has been described. Is not limited to the one using the waterproof coat, but it goes without saying that other waterproofing means having the same waterproof function as the one using the waterproof coat may be used.

[0059]

As described above, according to the present invention, the automobile falls into the water and becomes flooded, and the first switch (window up switch) and / or the second switch (window down switch) of the waterproof power window device is provided. Switch), the first switch (window-up switch) and the second switch (window-down switch) are configured as one-circuit, two-contact switches even if the electrical insulation between the contacts deteriorates. One or the other fixed contact is connected to the vehicle-mounted power supply, the other or the one fixed contact is connected to the ground, and the corresponding first relay operates by operating the first switch (window raising switch); The motor is driven to rotate in one direction, the window is operated to move up, and the operation of the second switch (window down switch) causes the corresponding second switch to operate. The relay operates to rotate the motor in the other direction and operate to lower the window. Therefore, even when flooding, if the second switch (window lowering switch) is operated, the motor will There is an effect that it is possible to rotate in the other direction to open the window and to avoid a situation in which a driver or the like is trapped in a flooded automobile.

[Brief description of the drawings]

FIG. 1 is a circuit diagram showing a configuration of a main part of a first embodiment of a power window device according to the present invention.

FIG. 2 is a circuit diagram showing a configuration of a main part of a second embodiment of the power window device according to the present invention.

FIG. 3 is a circuit diagram showing a configuration of a main part of a third embodiment of the power window device according to the present invention.

FIG. 4 is a circuit diagram showing a configuration of a main part of a fourth embodiment of the power window device according to the present invention.

FIG. 5 is a circuit configuration diagram showing an example of a main configuration of a known power window device.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Window up switch (1st switch) 2 Window up relay 2 2 ₁ Contact of window up relay 2 3 Window down switch (2nd switch) 4 Window down relay 4 ₁ Contact of window down relay 4 5 Automatic window up switch 6 Automatic Window lowering switch 7 First backflow prevention diode 8 Second backflow prevention diode 9 Third backflow prevention diode 10 Fourth backflow prevention diode 11 Window opening / closing motor 12 Control integrated circuit (IC) 13 In-vehicle power supply (battery)

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[Procedure amendment]

[Submission date] November 6, 1998

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claims

[Correction method] Change

[Correction contents]

[Claims]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0015

[Correction method] Change

[Correction contents]

[0015]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In one embodiment of the present invention, a waterproof power window device comprises a first series circuit comprising a first switch and a first relay, one end of which is connected to a vehicle-mounted power supply; A second series circuit comprising a second switch and a second relay connected to the vehicle-mounted power supply, wherein the first relay is energized when the first switch is operated, and the contact is switched to rotate the motor in one direction. The second relay is energized when the second switch is operated, and the contact is switched to drive the motor to rotate in the other direction to lower the window .
The other end of one series circuit is the connection point between the second switch and the second relay
And the other end of the second series circuit is connected to the first switch and the first switch.
The first switch and the second switch are connected to a connection point of a relay, and the first switch and the second switch are configured as two-point switches in one circuit. The first switch and the second switch are connected to ground at fixed contacts that are switched when not operated, and are switched during operation. The fixed contact is connected to a vehicle-mounted power supply.

[Procedure amendment 3]

[Document name to be amended] Statement

[Correction target item name] 0017

[Correction method] Change

[Correction contents]

In another embodiment of the present invention,
The waterproof power window device includes a first series circuit including one end connected to a vehicle-mounted power supply and a first relay, and a second series including one end connected to a vehicle-mounted power supply and a second switch and a second relay. A series circuit is provided, the second relay is energized when the first switch is operated, and the contact is switched to rotate the motor in one direction to raise the window, and the first relay is operated when the second switch is operated. is biased, there is lowering the window and motor was driven to rotate in the other direction by the switching of the contact, the first linear
The other end of the column circuit is connected to the connection point between the second switch and the second relay.
The other end of the second series circuit is connected to the first switch and the first relay.
, The first switch and the second switch are configured as switches of one circuit and two contacts, and the first switch and the second switch are connected to a vehicle-mounted power supply when fixed contacts that are switched when not operated are operated. The fixed contact that is sometimes switched is grounded.

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0020

[Correction method] Change

[Correction contents]

According to these embodiments of the present invention, the vehicle falls into the water and becomes submerged, and the first switch (window raising switch) and / or the second switch (window lowering switch) also floods. Even if the electrical insulation between the contacts is deteriorated, the first switch (window-up switch) and the second switch (window-down switch) are constituted by one-circuit two-contact switches, and one or the other fixed contact is used. And the other or one of the fixed contacts is grounded, and the first
When a switch (window raising switch) is operated, a corresponding first relay is operated, and the motor is driven to rotate in one direction so as to raise the window.
By operating the switch (window lowering switch) serves the corresponding second relay, motor was driven to rotate in the other direction is operated to lower the window, even if a time of flooding, a second switch (window lowering Switch)
By always motor employs a so that construction can open the window and rotated in the other direction
Therefore, when the vehicle is flooded, it is possible to avoid a situation in which a driver or the like is trapped in the flooded vehicle.

[Procedure amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0034

[Correction method] Change

[Correction contents]

In such a state, when the driver of the vehicle operates the window lowering switch 3, the contact of the window lowering switch 3 is switched from the normally closed fixed contact side to the normally open fixed contact side, and the normally open fixed contact Leakage resistance due to water connected between the movable contact and the contact switch causes a short-circuit due to switching of the contact.At the same time, the normally-closed fixed contact and the movable contact change from a short-circuited state to an open state. Water leakage resistance is connected between the fixed contact and the movable contact. For this reason, the voltage of the vehicle-mounted power supply 13 is such that the window down switch 3, the fourth backflow prevention diode 10, the second backflow prevention diode 8 , the window down relay 4 , and the movable contact in the short-circuit state are connected to the normally closed fixed contact side. I have
Is supplied to the ground point through the India rise switch 1, it
Thereby, the window lowering relay 4 is driven. At this time,
The voltage of the onboard power supply 13 is applied to the
The load rises due to the
Even if voltage is applied to
The operation of the ray 2 can be stopped. Then, by driving the window lowering relay 4, its contact 4 ₁ is switched from the connected state shown in the reverse connection state, the voltage of the onboard power source 13 is applied to the window opening and closing motor 11, the window opening and closing motor 11 the other direction Is driven to rotate. this
Thus, the window up switch 1 and the window down switch
One or both of the switches 3
Operating the window lowering switch 3
And the window lowering relay 4 is reliably driven,
Since the opening / closing motor 11 is driven to rotate in the other direction,
The window descends so that the window can be opened
Thus, the driver of the car can escape from the open window.

[Procedure amendment 6]

[Document name to be amended] Statement

[Correction target item name] 0051

[Correction method] Change

[Correction contents]

In such a state, when the driver of the vehicle operates the window lowering switch 3, the contact of the window lowering switch 3 is switched from the normally closed fixed contact side to the normally open fixed contact side, and the normally open fixed contact Leakage resistance due to water connected between the movable contact and the contact switch causes a short-circuit due to switching of the contact.At the same time, the normally-closed fixed contact and the movable contact change from a short-circuited state to an open state. Water leakage resistance is connected between the fixed contact and the movable contact. For this reason, the voltage of the vehicle-mounted power supply 13 is supplied via the window raising switch 1, the window lowering relay 4, the second backflow prevention diode 8, and the movable contact of the window lowering switch 3 switched to the normally closed fixed contact side in the short-circuit state. It is supplied to the ground point , whereby the window lowering relay 4 is driven. Then, by driving the window lowering relay 4, its contact 4 ₁ is switched from the connected state shown in the reverse connection state, the onboard power source 13 to the window-opening and closing motor 11
Is applied, and the window opening / closing motor 11 is rotationally driven in the other direction. In this way, wind rising sui
Switch 1 or window lowering switch 3
The window descends even if both are flooded.
By operating switch 3, the window lowering
The lay 4 is driven, and the window opening / closing motor 11
Since the window is driven to rotate in the direction, the window is lowered and the window can be opened, so that a driver or the like of an automobile can escape from the opened window.

Claims (5)

[Claims] 1. A first series circuit comprising a first switch and a first relay having one end connected to a vehicle-mounted power supply, and a second series circuit comprising a second switch and a second relay having one end connected to the vehicle-mounted power supply. And a second end of the first series circuit is connected to a connection point between the second switch and the second relay,
The other end of the second series circuit is connected to the first switch and the first switch.
Connected to a connection point of a relay, the first relay is energized when the first switch is operated, the contact is switched to drive the motor in one direction to raise the window, and to operate the second switch. Sometimes, the second relay is energized, and the contact is switched to drive the motor to rotate in the other direction to lower the window, wherein the first switch and the second switch are set to 1 The circuit comprises a two-contact switch, wherein the first switch and the second switch each have a fixed contact that is switched when not operated and are grounded, and a fixed contact that is switched when operated and are connected to the vehicle-mounted power supply. Waterproof power window device. 2. An automatic first switch interlocking with the first switch and an automatic second switch interlocking with the second switch are connected in parallel between the vehicle-mounted power supply and the control integrated circuit during operation. After the operation of the switch, a voltage is generated from the control integrated circuit, the first relay is energized with the voltage, the motor is rotated in one direction to raise the window, and the automatic second switch is operated. 2. The method according to claim 1, further comprising: generating the voltage from the control integrated circuit after the operation, energizing the second relay with the voltage, and rotating the motor in the other direction to lower the window. 12. The waterproof power window device according to item 1. 3. A first series circuit comprising a first switch and a first relay, one end of which is connected to a vehicle power supply, and a second series circuit comprising a second switch and a second relay, one end of which is connected to the vehicle power supply. And a second end of the first series circuit is connected to a connection point between the second switch and the second relay,
The other end of the second series circuit is connected to the first switch and the first switch.
Connected to a connection point of a relay, the second relay is energized when the first switch is operated, the contact is switched to rotate the motor in one direction to raise the window, and to operate the second switch. The first relay is sometimes energized, and the contact is switched to drive the motor to rotate in the other direction to lower the window, wherein the first switch and the second switch are set to 1 The circuit comprises a two-contact switch, wherein the first switch and the second switch have a fixed contact that is switched when not operated is connected to the vehicle-mounted power supply, and a fixed contact that is switched when operated is grounded. Waterproof power window device. 4. An automatic first switch in operation, wherein an automatic first switch linked to the first switch and an automatic second switch linked to the second switch are connected in parallel between the vehicle-mounted power supply and the control integrated circuit. After the operation, a voltage is generated from the control integrated circuit, the first relay is energized with the voltage, the motor is rotated in one direction to raise the window, and the automatic second switch is turned on. After the operation, the voltage is generated from the control integrated circuit, the second relay is energized with the voltage, and the motor is rotated in the other direction to lower the window. The described waterproof power window device. 5. Each component constituting the waterproof power window device is mounted and arranged on a printed circuit board except for the motor and the vehicle-mounted power supply, and a waterproof resin mold is mounted on each of the mounted components. The waterproof power window device according to any one of claims 1 to 4, wherein the waterproof power window device is provided.