JP4018321B2 - Opening / closing member driving device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wire-type opening / closing member device for opening and closing an opening / closing member such as a side glass of a vehicle door.
[0002]
[Prior art]
An example of a power window regulator that is a wire-type opening / closing member driving device as described above is disclosed in Japanese Patent Laid-Open No. 9-25765. As shown in FIG. 8, the power window regulator includes a guide 50 provided so as to extend in the up-and-down direction of the side glass G, and a slider base 51 supported so as to be movable in the extending direction along the guide 50. Prepare. Further, one end of each of the wires 53a and 53b is wound around a drum 52 that is rotationally driven in both directions by a motor (not shown). The other end of the wire 53 a is connected to the upper end of the slider base 51 through the upper end of the guide 50, and the other end of the wire 53 b is connected to the lower end of the slider base 51 through the lower end of the guide 50.
[0003]
When the motor rotates upward, the wire 53a connected to the slider base 51 via the upper end of the guide 50 is wound around the drum 52 and connected to the slider base 51 via the lower end of the guide 50. The wire 53b is fed out from the drum 52. As a result, the slider base 51 moves up along the guide 50 and the side glass G rises. Conversely, when the motor rotates downward, the wire 53b is wound around the drum 52 and the wire 53a is fed out of the drum 52. As a result, the slider base 51 descends along the guide 50, and the side glass G descends.
[0004]
Here, if the wires 53a and 53b connecting the drum 52 and the slider base 51 are slack, the raising / lowering operation of the slider base 51 is delayed with respect to the rotation operation of the drum 52 during the ascending operation or the descending operation. appear.
[0005]
That is, after the ascending operation, as shown in FIG. 10, the wire 53b fed from the drum 52 is slackened. From this state, when the drum 52 is rotated counterclockwise in order to lower the side glass G, the slider base 51 does not move downward until the wire 53b is not loosened. Similarly, after the descending operation, as shown in FIG. 11, the wire 53a fed out from the drum 52 is slackened. From this state, when the drum 52 is rotated clockwise in order to raise the side glass G, the slider base 51 does not rise until the wire 53a is not loosened.
[0006]
Therefore, for example, when the driver attempts to lower the closed side glass G slightly for ventilation or the like and switches the window switch to the lower side for a short period of time, the side glass G is simultaneously switched. The lowering operation is not performed but the lowering operation is delayed by a time corresponding to the extension amount of the wires 53a and 53b. Alternatively, when the opened side glass G is operated to raise the window switch for a short time in order to limit the infiltration of the wind, the side glass G does not rise at the same time as the switch operation, and the wires 53a and 53b extend. The ascending operation is delayed by a time corresponding to the amount. That is, when the position of the side glass G is slightly adjusted, it cannot be easily adjusted to a desired position.
[0007]
In order to prevent such a situation, the wires 53a and 53b are assembled with a predetermined tension between the drum 52 and the slider base 51 so as not to loosen. In the power window regulator described above, as shown in FIG. 8, the other ends of the wires 53 a and 53 b are engaged with a metallic wire end case 54 provided on the slider base 51. As shown in FIG. 9, tension is applied to the wires 53 a and 53 b by a spring 55 provided in the wire end case 54, so that no slack is generated.
[0008]
[Problems to be solved by the invention]
However, the wires 53a and 53b may extend over a long period and become longer than the original length. Here, in the power window regulator disclosed in Japanese Patent Laid-Open No. 9-25765, the extension of the wires 53 a and 53 b is absorbed by the spring 55 provided in the wire end case 54 of the slider base 51. For this reason, even if the wires 53a and 53b become longer than the original length, the wires 53a and 53b do not loosen.
[0009]
However, the tension applied to the wire 53 by the spring 55 that has absorbed the extension of the wires 53a and 53b is weakened. For this reason, when the drum 52 rotates, the spring 55 wound around the drum 52 is elastically deformed, and the slider base 51 does not move until the wires 53a and 53b are wound to some extent. Therefore, also in this power window regulator, as in the case where the wires 53a and 53b on the side wound around the drum 52 are loose, when the position of the side glass G is slightly adjusted, it can be easily set to a desired position. Problems that cannot be adjusted occur.
[0010]
The present invention has been made to solve the above problems, and an object of the present invention is to provide an opening / closing member driving device capable of eliminating the delay of the opening / closing operation due to the extension of the wire for driving the opening / closing member. There is to do.
[0011]
[Means for Solving the Problems]
In order to solve the above problems, the invention according to claim 1 is guided by the opening / closing guide member for guiding the opening / closing member in the opening / closing direction, and by the opening / closing guide member movably in the opening / closing direction, A moving member to which the opening / closing member is fixed, a drive source for reciprocating the opening / closing member in the opening / closing direction, and a fixed positional relationship with respect to the opening / closing guide member, and rotated by the drive source The other end of the wire drum to be driven is wound around the wire drum in a state where one end of the wire drum is fixed as the wire drum rotates in one rotational direction, and the other end is connected to the moving member. The other end side of the first wire and the other end of the wire drum is wound around the wire drum in a state where one end is fixed in accordance with the rotation of the other direction of the wire drum, and the other end is connected to the moving member. The second wire and the opening / closing guide member, and the moving member is moved in one direction of the opening / closing direction as the other end side of the first wire is wound around the wire drum side, A first guide member for guiding the first wire to the moving member, and an opening / closing guide member, and the moving member is opened and closed as the other end side of the second wire is wound on the wire drum side. So that it moves in the other direction. Unpleasant And a second guide member that guides the movable member to the movable member, wherein the movable member is fixedly held at the other end of the first wire or the second wire without the slack of the wire. Wire holding means is provided The wire holding means is operated by applying a tension to the first wire and the second wire to take the extension of both wires into the moving member, and the displacement of the spring member taking the extension, It comprises a ratchet mechanism that fixes and holds the other end of the wire in which the extension is taken in a new position, and the spring member is inserted through the first wire or the second wire, and the outer end is the moving member. The ratchet mechanism is fixed to the moving member and moves in the opening and closing direction, and a fixed side ratchet member having a fixed claw row extending in the opening and closing direction. Of the first wire or the second wire inserted into the compression coil spring and having a movable claw portion held by the moving member and locked to the fixed claw row End connected, its inner end in a state where the compression coil spring is compressed becomes a movable side ratchet member into contact The opening / closing member driving device.
[0014]
Claim 2 The invention described in claim 1 The movable side ratchet member is formed of an elastic material integrally formed with the movable side claw row as the movable side claw portion, and the movable side claw row is formed on the fixed side claw row. The form is formed so as to be elastically biased so as to be locked.
[0015]
Claim 3 The invention described in claim 1 The movable ratchet member includes: a movable claw body as the movable claw portion; and a biasing spring that urges the movable claw body toward the fixed claw row side. Yes.
[0016]
(Function)
According to the first aspect of the present invention, when the wire drum is rotationally driven by the driving source, the other end of either the first wire or the second wire is wound around the wire drum, and the other is The other end side of the wire is fed out from the wire drum. Then, the moving member to which the other ends of the first and second wires are connected moves in any one of the opening and closing directions along the opening and closing guide member. As a result, the opening / closing member fixed to the moving member opens or closes. When the first and second wires extend over a long period of time and become longer than the original length, the wire holding means provided on the moving member fixes and holds the other end in a state where each wire is not loosened. The moving member operates without delaying the operation of the drum.
[0017]
Also The extension of the first and second wires is taken into the moving member by the spring member, and the other end of the wire into which the extension is taken is fixed and held by the ratchet mechanism at a new position. As a result, the other ends are fixedly held with no slack in each wire. Therefore, the looseness of the first and second wires is removed by the ratchet mechanism which is a simple mechanism.
[0018]
further The movable side ratchet member is fixedly held at a predetermined position in the opening and closing direction against the tension of the wire held by the fixed side ratchet member by the movable side claw portion being locked to the fixed side claw row. The When the first wire or the second wire is extended, the compression coil spring that biases the other end of the wire toward the moving member in the compressed state opens and closes the moving ratchet member so that the extension of the wire is taken into the moving member. An urging force in the direction is applied, and the movable ratchet member moves in a direction in which the wire is not slackened by the urging force. When the extension of the wire is taken in, the urging force of the compression coil spring is balanced with the tension of the wire, the urging force is not applied from the compression coil spring to the movable ratchet member, and the movement of the movable ratchet member stops. It is held by the fixed side ratchet member. Then, the other end of the wire is fixedly held by the movable ratchet member fixed and held at a new position in a state where each wire is not slack. Therefore, the ratchet mechanism has a simple structure that operates in a linear motion.
[0019]
Claim 2 According to the invention described in claim 1 In addition to the operation of the invention described in (4), the movable side ratchet member formed of an elastic material is configured such that the movable side claw row is engaged with the fixed side claw row by elastically urging the movable side claw row according to its form. Stopped. When the movable ratchet member is urged by the compression coil spring in the opening / closing direction so that the extension of the wire is taken into the moving member, the form of the movable ratchet member is elasticized by the reaction force received by the movable claw row from the fixed claw row The movable claw row is deformed and is not locked to the fixed claw row, and moves in a direction in which the wire does not become slack. When the extension of the wire is taken in and the urging force is no longer applied from the compression coil spring, the movement of the movable ratchet member stops. Then, the movable claw row is not subjected to a reaction force, the movable side ratchet member returns from the elastically deformed state, and the movable claw row is locked to the fixed claw row. As a result, the movable ratchet member that holds the other end of the wire from which the extension has been taken in is held by the fixed ratchet member at a new position. Therefore, the movable ratchet member is integrally formed of an elastic material without providing a locking mechanism including a spring, a claw portion, and the like which are separate parts.
[0020]
Claim 3 According to the invention described in claim 1 In addition to the operation of the invention described in (2), the movable side ratchet member is locked to the fixed side claw row by the movable side claw body being biased to the fixed side claw row side by a biasing spring. To do. When the movable ratchet member is urged by the compression coil spring in the opening / closing direction in the direction of taking the extension of the wire into the moving member, the urging force of the urging spring is resisted by the reaction force received by the movable claw body from the fixed claw row. Then, the movable claw body moves backward and is not locked to the fixed claw row, and the movable ratchet member moves in a direction in which the wire is not loosened. When the wire is not loosened and no urging force is applied from the compression coil spring, the movement of the movable ratchet member stops. Then, the movable claw body does not receive the reaction force, and the movable claw body protrudes by the urging force of the urging spring and is locked to the fixed claw row. As a result, the movable ratchet member that holds the other end of the wire from which the extension has been taken in is held by the fixed ratchet member at a new position. Therefore, the movable ratchet member is configured with a simple mechanism.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
Hereinafter, a first embodiment in which the present invention is embodied in a power window regulator for opening and closing a side glass of a vehicle will be described with reference to FIGS.
[0022]
As shown in FIG. 3, a power window regulator 10 as an opening / closing member driving device includes a guide rail 11 as an opening / closing guide member, a carrier plate 12 as a moving member, a motor unit 13, first and second wires 14, 15 and the like. It has.
[0023]
The guide rail 11 guides the side glass G as an opening / closing member in the up / down direction as its opening / closing direction, and is installed in a vehicle door (not shown) so as to extend in the up / down direction.
[0024]
A carrier plate 12 as a moving member is guided to the guide rail 11 so as to be movable in the up-and-down direction, and a lower portion of the side glass G is fixed.
The motor unit 13 is fixed in the door so as to have a predetermined positional relationship with respect to the guide rail 11.
[0025]
In the motor unit 13, an electric motor 16 as a drive source for reciprocating the side glass G in the up-and-down direction and a wire drum 17 that is rotationally driven in both directions by the electric motor 16 are integrated. The electric motor 16 has a worm (not shown) fixed to the output shaft and meshed with a worm wheel (not shown) fixed to the rotating shaft of the wire drum 17.
[0026]
A first wire 14 is wound around the wire drum 17. When the wire drum 17 is driven to rotate in the clockwise direction in FIG. 3, the first wire 14 has its other end side fixed to the wire drum 17 and the other end side to the wire drum 17 as the wire drum 17 rotates. It is provided so as to be gradually wound up. The other end 14 a of the first wire 14 is connected to the upper end of the carrier plate 12.
[0027]
A second wire 15 is wound around the wire drum 17. When the wire drum 17 is driven to rotate counterclockwise in FIG. 3, the second wire 15 is wound on the other end side in a state where one end (not shown) of the second wire 15 is fixed to the wire drum 17. It is provided as follows. The other end 15 a of the second wire 15 is connected to the lower end of the carrier plate 12.
[0028]
At the upper end of the guide rail 11, the other end side of the first wire 14 is moved so that the carrier plate 12 is moved upward in the ascending / descending direction as the other end side of the first wire 14 is wound around the wire drum 17. A first guide roller 18 or the like serving as a first guide member for guiding the carrier plate 12 is provided.
[0029]
Further, at the lower end of the guide rail 11, the other end of the second wire 15 is wound around the wire drum 17 so that the carrier plate 12 is moved to the lower side in the ascending / descending direction. A second guide roller 19 as a second guide member for guiding the end side to the carrier plate 12 is provided.
[0030]
As shown in FIG. 2, the carrier plate 12 is provided with a locking portion 20 that locks the other end 14 a of the first wire 14 on the back surface thereof. The other end 14 a of the first wire 14 is locked to the locking portion 20 without moving with respect to the carrier plate 12.
[0031]
Further, a wire holding portion 21 that locks the other end 15 a of the second wire 15 is provided on the back surface of the carrier plate 12. The wire holding unit 21 is configured so that the first wire 14 is not loosened between the wire drum 17 and the carrier plate 12 and the second wire 15 is not loosened between the wire drum 17 and the carrier plate 12. The other end 15a of 15 is fixedly held.
[0032]
The wire holding portion 21 applies a tension to the second wire 15 to displace the compression coil spring 22 as a spring member that takes in the extension of the second wire 15 into the carrier plate 12 and the compression coil spring 22 that takes in the extension. And a ratchet mechanism 23 that fixes and holds the other end 15a of the second wire 15 that has been taken in.
[0033]
More specifically, as shown in FIG. 1, the compression coil spring 22 is inserted into the other end 15 a of the second wire 15, and the outer end of the locking piece 24 provided at the lower end of the carrier plate 12. It is in contact with the inner surface.
[0034]
The ratchet mechanism 23 includes a pair of fixed side ratchet members 25 and a movable side ratchet member 26. Both the fixed side ratchet members 25 are fixed to the back surface of the carrier plate 12 and each include a fixed side claw row 27 extending in the ascending / descending direction.
[0035]
The movable ratchet member 26 is held on the back surface of the carrier plate 12 by the pair of fixed ratchet members 25 and the surface of the guide rail 11 so as to move only in the up-and-down direction. The movable side ratchet member 26 is formed of a synthetic resin as an elastic material integrally formed with a pair of movable side claw rows 28 respectively engaged with the fixed side claw rows 27, and each movable side claw row 28. Are formed so as to be elastically biased so as to be locked to the respective fixed side claw rows 27. Further, the other end 15 a of the second wire 15 is connected to the movable side ratchet member 26. The lower end of the movable side ratchet member 26 is in contact with the upper end (inner end) of the compression coil spring 22 in a compressed state.
[0036]
That is, the fixed-side ratchet member 25 is provided in a pair so as to sandwich the movable-side ratchet member 26 on both sides of the movable-side ratchet member 26, and the movable-side ratchet member 26 has a fixed-side claw row of each fixed-side ratchet member 25. A pair of movable side claw rows 28 as movable side claw portions that are respectively latched by 27 are provided.
[0037]
Next, the operation of the power window regulator configured as described above will be described.
When the controller controls the rotation of the motor 16 based on the operation of a power window switch (not shown) and the wire drum 17 is driven to rotate in the clockwise direction in FIG. 3, the other end of the first wire 14 whose one end is fixed to the wire drum 17 is obtained. The end side is gradually wound up, and the other end side of the second wire 15 having one end fixed to the wire drum 17 is gradually fed out from the wire drum 17. Then, the first guide roller 18 provided on the guide rail 11 guides the other end of the first wire 14 connected to the carrier plate 12, and the second guide roller 19 guides the other end of the carrier plate 12. The carrier plate 12 is raised in the up-and-down direction by the second wire 15 connected to the. As a result, the side glass G fixed to the carrier plate 12 rises and the side window closes.
[0038]
When the wire drum 17 is driven to rotate counterclockwise by the rotation control of the motor 16, the other end side of the second wire 15 is gradually wound and the other end side of the first wire 14 is gradually fed out. Then, the carrier plate 12 descends in the up / down direction. As a result, the side glass G fixed to the carrier plate 12 descends and the side window opens.
[0039]
Here, the other end 15 a of the second wire 15 is fixed and held by the ratchet mechanism 23 in a state where tension is applied by the compression coil spring 22 of the wire holding portion 21.
[0040]
Even if the second wire 15 extends and becomes longer than the original length within a long period of time, the wire holding portion 21 provided on the carrier plate 12 is not loosened in the second wire 15 and the other end 15a. Since the carrier plate 12 is fixedly held, the carrier plate 12 descends without delaying the operation of the wire drum 17 during the opening operation after the side glass G is closed.
[0041]
That is, the extension of the second wire 15 is taken into the carrier plate 12 by the compression coil spring 22 of the wire holding portion 21 that applies tension to the second wire 15. Then, the other end 15 a of the second wire 15 into which the extension has been taken in is fixed and held at a new position by the ratchet mechanism 23. As a result, the other end 15a is fixedly held while the second wire 15 is not slack.
[0042]
In the present invention, unlike the conventional power window regulator, the other end 15a is fixedly held by the wire holding portion 21 in a state in which the second wire 15 is not loosened. The taken-in 2nd wire 15 is not pulled out again. For this reason, the carrier plate 12 descends without delaying the operation of the wire drum 17.
[0043]
The operation of the wire holding part 21 will be described in detail.
The movable ratchet member 26 moves up and down against the fixed side ratchet member 25 against the tension of the second wire 15 held by the movable side claw row 28 being locked to the fixed side claw row 27. Are fixedly held at predetermined positions.
[0044]
At this time, as shown in FIG. 4A, the movable side ratchet member 26 made of an elastic material is elastically urged by the movable side claw row 28 according to its form, so that the movable side claw row 28 is Locked to the fixed claw row 27.
[0045]
When the extension of the second wire 15 occurs, the extension of the second wire 15 from the compression coil spring 22 that urges the other end 15a of the second wire 15 toward the carrier plate 12 in the compressed state with respect to the movable ratchet member 26. A biasing force in the up-and-down direction is applied to the carrier plate 12, and the movable ratchet member 26 moves in a direction in which the second wire 15 is not loosened by the biasing force.
[0046]
At this time, when the movable side ratchet member 26 is urged by the compression coil spring 22 in the direction of taking the extension of the second wire 15 into the carrier plate 12, as shown in FIG. The movable ratchet member 26 is elastically deformed by the reaction force received by the movable claw row 28 so that the movable claw row 28 is not locked to the fixed claw row 27 and moves in a direction in which the second wire 15 is not slackened. To do.
[0047]
When the extension of the second wire 15 is taken in, the urging force of the compression coil spring 22 is in balance with the tension of the second wire 15, and the movement of the movable ratchet member 26 is stopped and fixed by the fixed ratchet member 25. Retained. The other end 15a is fixed and held by the movable ratchet member 26 fixed and held at a new position while the second wire 15 is not loose.
[0048]
At this time, the extension of the second wire 15 is taken in and balanced with the compression coil spring 22, and the movement of the movable side ratchet member 26 is stopped. Then, the movable claw row 28 does not receive a reaction force from the fixed claw row 27, and the movable side ratchet member 26 returns from the elastically deformed state and the movable claw row 28 is fixed as shown in FIG. The movable side ratchet member 26 is fixedly held at that position by being engaged with the side claw row 27.
[0049]
In addition, since the extension of the first wire 14 can be absorbed by providing this mechanism (wire holding portion 21) on the first wire 14 side, the wire is also used during the closing operation after the opening operation, that is, during the raising operation. The carrier plate 12 moves up without delaying the operation of the drum 17.
[0050]
According to the embodiment described in detail above, the following effects can be obtained.
(1) A pair of first wires 14 with one end wound on the other end side and the other end side fed out in accordance with the direction of rotation of the wire drum 17 with one end side fixed to the wire drum 17 and the other end side. The carrier plate 12 to which the other ends 14a, 15a of the two wires 15 are connected is provided with a wire holding portion 21 that fixes and holds the other end 15a in a state where the second wire 15 is not loosened.
[0051]
Therefore, even if the second wire 15 extends and becomes longer than the original length, the carrier plate 12 moves up and down without delay with respect to the operation of the motor 16 during the reversing operation of the motor 16. As a result, the delay in the opening operation due to the extension of the second wire 15 can be eliminated.
[0052]
(2) By applying tension to the wire holding portion 21 with respect to the second wire 15, the compression coil spring 22 that takes in the extension of the second wire 15 into the carrier plate 12, and the displacement of the compression coil spring 22 that takes in the extension The ratchet mechanism 23 which act | operates and fixedly hold | maintains the other end 15a of the 2nd wire 15 into which extension was taken in in a new position was comprised.
[0053]
Therefore, the looseness of the second wire 15 is removed by the ratchet mechanism 23 which is a simple mechanism. As a result, the wire holding portion 21 can be provided in a small volume, and can be attached to a conventional power window regulator.
[0054]
(3) The second wire 15 is inserted, and the extension is applied to the carrier by applying tension to the second wire 15 by the compression coil spring 22 whose outer end (lower end) is brought into contact with the locking piece 24 of the carrier plate 12. It was made to take in to the plate 12. Further, a fixed side ratchet member 25 having a fixed side claw row 27 fixed to the carrier plate 12 and extending in the up and down direction, and held by the carrier plate 12 movably in the up and down direction, and locked to the fixed side claw row 27. And a movable ratchet member 26 that is connected to the other end 15a of the second wire 15 and whose inner end (upper end) is in contact with the compressed coil spring 22 in a compressed state. The ratchet mechanism 23 is configured.
[0055]
Therefore, since the ratchet mechanism 23 is structured to operate in a downward linear motion, the extension of the second wire 15 is smoothly taken in. As a result, since the other end 15a is fixedly held in a state where the second wire 15 is not loosened, the delay in the opening operation due to the extension of the second wire 15 can be reliably eliminated.
[0056]
(4) The movable side ratchet member 26 is formed of an elastic material in which the movable side claw row 28 is integrally formed, and is elastically attached so that the movable side claw row 28 is locked to the fixed side claw row 27. It was formed in the form which
[0057]
Therefore, since the movable side ratchet member 26 is integrally formed of an elastic material without including a locking mechanism including a spring, a claw portion, etc., which are separate parts, the number of parts and the number of assembly steps can be reduced.
[0058]
(5) A pair of fixed-side ratchet members 25 are provided on both sides of the movable-side ratchet member 26 so as to sandwich the movable-side ratchet member 26, and the movable-side ratchet member 26 includes a fixed-side claw row for each fixed-side ratchet member 25. A pair of movable claw rows 28 that are respectively locked to 27 are provided. Accordingly, each movable claw row 28 of the movable side ratchet member 26 is securely locked to the fixed side claw row 27 of each fixed side ratchet member 25, so that the movable side ratchet member 26 is securely fixed and held at a predetermined position. Is done. As a result, the delay in the opening operation due to the extension of the second wire 15 is reliably eliminated.
[0059]
(Second Embodiment)
Next, a second embodiment in which the present invention is similarly embodied in a power window regulator for opening and closing a side glass of a vehicle will be described with reference to FIGS. Note that the present embodiment is different from the first embodiment only in that the ratchet mechanism 23 of the first embodiment is changed to a ratchet mechanism 30. Therefore, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted. Only the ratchet mechanism 30 will be described in detail.
[0060]
As shown in FIGS. 5 and 6, the ratchet mechanism 30 includes a pair of fixed side ratchet members 31 and a movable side ratchet member 32. The fixed-side ratchet member 31 includes a fixed-side claw row 33 that is fixed to the back surface of the carrier plate 12 and extends in the up-and-down direction.
[0061]
The movable ratchet member 32 is held on the back surface of the carrier plate 12 by the pair of fixed ratchet members 31 and the surface of the guide rail 11 so as to move in the up-and-down direction. The movable ratchet member 32 has a pair of movable claw bodies 34 each serving as a movable claw portion locked to the fixed claw row 33, and each movable claw body 34 attached to each fixed claw row 33 side. And a compression coil spring 35 as a biasing spring for biasing.
[0062]
The movable ratchet member 32 is connected to the other end of the second wire 15. The upper end of the movable side ratchet member 32 is in contact with the lower end of the compression coil spring 22 in a compressed state.
[0063]
Next, the operation of the power window regulator configured as described above will be described.
The extension of the second wire 15 is taken into the carrier plate 12 by the compression coil spring 22 of the wire holding portion 21 that applies tension to the second wire 15. Then, the other end 15 a of the second wire 15 into which the extension has been taken in is fixed and held at a new position by the ratchet mechanism 23. As a result, even if the second wire 15 extends and becomes longer than the original length, the other end 15a is fixedly held in a state where the second wire 15 is not slack.
[0064]
The operation of the wire holding part 21 will be described in detail.
The movable side ratchet member 32 is moved in the descending direction against the tension of the second wire 15 held against the fixed side ratchet member 31 by the movable side claw body 34 being locked to the fixed side claw row 33. Are fixedly held at predetermined positions.
[0065]
At this time, as shown in FIG. 7A, the movable ratchet member 32 is engaged with the movable claw bodies 34 biased by the compression coil springs 35, respectively, and is locked to the fixed claw rows 33. It is fixed and held in that position.
[0066]
When the second wire 15 is extended, the second wire 15 is extended from the compression coil spring 22 that urges the other end 15a of the second wire 15 toward the carrier plate 12 in the compressed state with respect to the movable ratchet member 32. A downward biasing force is applied in the direction to be taken into the carrier plate 12, and the movable ratchet member 32 moves in a direction in which the second wire 15 is not slackened by the biasing force.
[0067]
At this time, when the extension of the second wire 15 is taken into the carrier plate 12 by the compression coil spring 22 and the movable ratchet member 32 is urged to the ascending side in the ascending / descending direction, as shown in FIG. Due to the force received by the movable claw body 34 from the fixed claw row 33, the movable claw body 34 is separated from the fixed claw row 33 against the urging force of the compression coil spring 35 and is not locked. It moves to the ascending side in the ascending / descending direction until the wire 15 is taken in.
[0068]
When the extension of the second wire 15 is taken in, the urging force of the compression coil spring 22 is balanced with the tension of the second wire 15, and the movement of the movable side ratchet member 32 is stopped. The other end 15a is fixed and held by the movable ratchet member 32 fixed and held at a new position while the second wire 15 is not loose.
[0069]
At this time, when the extension of the second wire 15 is taken in and the urging force is no longer applied from the compression coil spring 22, the movement of the movable ratchet member 32 stops. Then, the movable claw bodies 34 do not receive the reaction force from the fixed claw rows 33, and each movable claw body 34 is moved to the fixed claw row by the urging force of the compression coil spring 35 as shown in FIG. The movable side ratchet member 32 is fixed and held at that position.
[0070]
According to the power window regulator of this embodiment described in detail above, the following effects can be obtained in addition to the effects described in (1) to (3) and (5) in the first embodiment. it can.
[0071]
(6) The movable ratchet member 32 is provided with a movable claw body 34 and a compression coil spring 35 that urges the movable claw body 34 toward the fixed claw row 33 side. Therefore, the movable ratchet member 32 is configured with a simple mechanism, so that the number of parts and the number of assembly steps can be prevented from increasing.
[0072]
Hereinafter, embodiments other than the above-described embodiment will be listed.
In each of the above embodiments, the first wire 14 and the second wire 15 are separate members, and one end of each of the wires 14 and 15 is fixed to the wire drum 17 so that when the wire drum 17 rotates, each wire The other end side was wound up in a state where one ends of 14 and 15 were fixed. In order to prevent this from sliding with the wire drum 17, half of one wire may be used as the first wire and the other half may be used as the second wire.
[0073]
In the first embodiment, a pair of fixed-side ratchet members 25 are provided on the back surface of the carrier plate 12, and the movable-side ratchet member 26 is disposed therebetween, so that the movable-side ratchet member 26 is movable in the up-and-down direction. The plate 12 was held. Instead of this configuration, one fixed side ratchet member is provided, and a guide portion is provided for holding the movable side ratchet member on the carrier plate 12 so as to be movable in the up and down direction in cooperation with the fixed side ratchet member. It is good.
[0074]
Similarly, in the second embodiment, one fixed side ratchet member is provided instead of the pair of fixed side ratchet members 31, and the movable side ratchet member is movable in the up-and-down direction in cooperation with the fixed side ratchet member. It is good also as a structure which provided the guide part for hold | maintaining in the carrier plate 12. FIG.
[0075]
A ratchet mechanism fixed to the back surface of the carrier plate 12 and provided at the periphery of the ratchet wheel with a ratchet wheel tail connected to the other end 15a so that the other end of the second wire 15 can be wound; It is good also as a structure which consists of a nail | claw part which accept | permits the rotation in the rotation direction which winds up the 2 wires 15, and controls the rotation in the direction which pays out the 2nd wire 15. The spring member is, for example, a torsion coil spring that urges the ratchet wheel in a rotational direction in which the second wire 15 is wound.
[0076]
Even with this configuration, the wire holding portion can be provided in a small volume, and can be mounted on a conventional power window regulator.
In addition to the wire holding portion 21 that fixes and holds the other end 15a of the second wire 15, a wire holding portion that fixes and holds the other end 14a of the first wire 14 may be provided in the carrier plate 12.
[0077]
The present invention is not limited to a power window regulator for opening / closing a side glass of a vehicle door, and may be implemented for a vehicle power window regulator for opening / closing a tailgate glass, for opening / closing a roof window, and the like.
[0078]
Moreover, you may implement in a manual type window regulator.
-It is not limited to a window regulator for opening and closing various windows for vehicles, and may be implemented for a window regulator for opening and closing various windows in various vehicles such as ships and trains.
[0079]
The present invention is not limited to a window regulator for opening and closing various windows in various vehicles, and may be implemented in an opening and closing member driving device for various opening and closing members in various houses such as a house, a building, and a warehouse.
[0080]
Less than ,in front The technical idea grasped from the embodiment described above or each example will be described together with the effect.
(1) in front The fixed-side ratchet members are provided in a pair so as to sandwich the movable-side ratchet members on both sides of the movable-side ratchet members. A pair of movable claw rows to be locked is provided. According to such a configuration, since the movable ratchet member is securely fixed and held at a predetermined position, the delay in the opening / closing operation due to the extension of each wire is reliably eliminated.
[0081]
【The invention's effect】
each Claim In terms According to the described invention, the delay in the opening and closing operation due to the extension of the wire can be eliminated. Further, it is possible to eliminate the deviation between the drive amount of the drive source and the open / close position of the open / close member.
[0082]
Also The mechanism for fixing and holding the end portion of the wire in a state in which the slack is removed can be provided in a small volume, and can be attached to a conventional power window regulator.
[0083]
further The slack of the wire can be surely removed, and the delay of the opening / closing operation can be surely eliminated.
Claim 2 According to the invention described in (1), the number of parts and assembly man-hours of the ratchet mechanism that holds the wire can be reduced.
[Brief description of the drawings]
FIG. 1 is a partially broken perspective view showing a wire holding portion provided on a carrier plate according to a first embodiment.
FIG. 2 is a rear view of a carrier plate showing a locking part and a wire holding part.
FIG. 3 is a schematic front view of a window regulator.
4A is a front view of the main part of the ratchet mechanism showing the state before operation, FIG. 4B is a front view of the main part during operation, and FIG. 4C is a front view of the main part after the operation is completed.
FIG. 5 is a partially broken perspective view showing a wire holding part of a second embodiment.
FIG. 6 is a rear view of a carrier plate showing a locking part and a wire holding part.
7A is a front view of the main part of the ratchet mechanism showing the state before the operation, FIG. 7B is a front view of the main part during operation, and FIG. 7C is a front view of the main part after the operation is completed.
FIG. 8 is a schematic front view of a conventional power window regulator.
FIG. 9 is a cross-sectional view of a wire end case.
FIG. 10 is a schematic diagram of a regulator showing a loosened state of the wire after the raising operation of the carrier plate.
FIG. 11 is a schematic diagram of a regulator showing a loosened state of the wire after the carrier plate is lowered.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Power window regulator as an opening-and-closing member drive device, 11 ... Guide rail as an opening-and-closing guide member, 12 ... Carrier plate as a moving member, 14 ... 1st wire, 15 ... 2nd wire, 16 ... Electricity as a drive source Motor 17, wire drum 18, first guide roller as first guide member 19, second guide roller as second guide member, 21 wire holder, 21 in the first and second embodiments Compression coil spring as a spring member constituting the wire holding means, 23 ... same ratchet mechanism, 25 ... fixed side ratchet member constituting the ratchet mechanism, 26 ... same movable ratchet member, 27 ... fixed side claw row, 28 ... movable A movable claw row as a side claw portion, 30... A ratchet mechanism constituting wire holding means in the second embodiment, 3 A fixed ratchet member constituting the ratchet mechanism, 32 a movable ratchet member, 33 a fixed claw row, 34 a movable claw body as a movable claw portion, 35 a compression coil spring as a biasing spring, G: Side glass as an opening / closing member.

Claims (3)

An opening and closing guide member for guiding the opening and closing member in the opening and closing direction;
A movable member that is guided by the open / close guide member so as to be movable in the open / close direction and to which the open / close member is fixed;
A drive source for reciprocating the opening / closing member in the opening / closing direction;
A wire drum fixed in a predetermined positional relationship with respect to the open / close guide member and driven to rotate by the drive source;
A first wire in which the other end is wound around the wire drum in a state where one end thereof is fixed in accordance with the rotation of the one direction of rotation of the wire drum, and the other end is connected to the moving member;
A second wire in which the other end is wound around the wire drum in a state where one end is fixed in accordance with the rotation of the other direction of the wire drum, and the other end is connected to the moving member;
The first wire is provided on the opening / closing guide guide member so that the moving member moves in one direction of the opening / closing direction as the other end side of the first wire is wound around the wire drum side. A first guide member for guiding the moving member;
Provided in the opening and closing guide member, as the moving member with the other end is wound on the wire drum side of the second wire is moved in the other direction of the opening and closing direction, the second word ear An opening / closing member driving device comprising a second guide member for guiding the moving member;
The moving member is provided with wire holding means for fixing and holding the other end of the first wire or the second wire in a state where the wire is not loosened ,
The wire holding means operates and extends by applying a tension to the first wire and the second wire to take in the extension of both wires into the moving member, and the displacement of the spring member taking in the extension. Consisting of a ratchet mechanism that fixes and holds the other end of the wire that has been taken in at a new position,
The spring member is a compression coil spring having an outer end fixed to the moving member in a state where the first wire or the second wire is inserted.
The ratchet mechanism is fixed to the moving member, and is fixed to the fixed side ratchet member having a fixed claw row extending in the opening and closing direction, and is held by the moving member so as to move in the opening and closing direction. A movable side claw portion that is locked to the claw row is provided, and the other end of the first wire or the second wire inserted through the compression coil spring is connected, and the compression coil spring is compressed in the state. An opening / closing member driving device comprising a movable ratchet member with which an end abuts . The movable ratchet member is formed of an elastic material in which a movable claw row as the movable claw portion is integrally formed, and the movable claw row is locked to the fixed claw row. The opening / closing member driving device according to claim 1 , wherein the shape is formed so as to be elastically biased . Said movable ratchet member, wherein the movable pawl member as the movable-side claw portion, in claim 1, and a biasing spring for biasing the movable side pawl member to said stationary pawls column-side Opening / closing member driving apparatus.

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