JP2004300827A - Cable tensile force device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a cable tensile force device which can make a cable easily connectable to a moving body. <P>SOLUTION: The cable tensile force device which is made to impart a tention to a cable to be connected to a moving body transferably supported to a fixed body, is provided with contact means 22, 23 movable to a tensile range capable of getting into contact with cables 10, 11 and a nontensile range incapable of getting into to them, in the crossing direction crossing the moving direction of the cables 10, 11, a spring 20 urging the contact means 22, 23 so as to impart a tensile force to the cables 10, 11 and a retaining means 18b able to temporarily retain the contact means 22 and 23 against the urging force of the spring 20. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a tension device for a cable connected to a moving body movably provided on a fixed body.
[0002]
[Prior art]
Conventionally, a cable that is wound around a rotating drum rotatable by a motor is disposed on the vehicle body side in an opening / closing device in which a sliding door that is openably and closably supported on the vehicle body is opened and closed by a driving force of a motor or the like. The cable is wound and fed by the rotation of the rotating drum by passing the cable through a flexible conduit and laying along a rail guiding the sliding door, and connecting a terminal of the cable to the sliding door. The sliding door is opened and closed along a rail.
[0003]
In addition, a sliding case having a tension pulley pivotally supported at the end is slidably supported on the cable moving path, and the cable is urged in the tension direction by a compression coil spring built in the sliding case. In order to absorb the slack of the cable, a cable tension device is provided that applies a predetermined tension to the cable by bringing a tension pulley into contact with the cable (for example, see Patent Document 1). .
[0004]
[Patent Document 1]
Japanese Patent Application Laid-Open No. 9-256732
[Problems to be solved by the invention]
However, in the conventional cable tension device as described above, even when the work of connecting the end of the cable to the slide door side is performed, since the cable is tensioned, the end of the cable is connected to the slide door side. When performing the connecting operation, the cable must be connected to the slide door side while pulling the cable against the urging force of the compression coil spring, and there is a problem that the connecting operation of the cable is troublesome.
[0006]
The present invention has been made in view of the above-described problems of the related art, and has as its object to provide a cable tension device that can easily connect a cable to a moving body such as a slide door.
[0007]
[Means for Solving the Problems]
According to the present invention, the above-mentioned problem is solved as follows.
(1) In a cable tension device configured to apply tension to a cable connected to a movable body movably supported by a fixed body, the cable tension device may be a direction that intersects the moving direction of the cable, and An abutting means movable between a contactable tension area and a non-tension area which does not abut, and the abutting means so as to apply tension to the cable when the corresponding abutting means is in the tension area. A biasing spring and a locking means capable of temporarily holding the contact means in a non-tension region against a biasing force of the spring are provided.
[0008]
(2) In the above item (1), the contact means includes an arm slidably and rotatably fitted to a guide portion provided on the fixed body so as to intersect with the moving direction of the cable; A pulley provided at the free end and movable between a tension region capable of contacting the cable and a non-tension region not contacting the cable, wherein the locking means is bent along a moving direction of the cable; As described above, the pulley is temporarily held in the non-tension region by engaging the free end of the arm slidably fitted to the guide while being provided continuously to the end of the guide. A possible locking part.
[0009]
(3) In the above item (1) or (2), a cable guide portion is provided near the contact means and on the moving path of the cable so that the cable slides along the moving direction. And a curved shape protruding toward the cable.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a perspective view of a vehicle provided with a sliding door to which one embodiment of the present invention is applied, FIG. 2 is a front view of an opening / closing device viewed from the indoor side, FIG. 3 is an enlarged front view of the opening / closing device, and FIG. Is an exploded perspective view of the tension device, and FIG. 5 is a longitudinal sectional view taken along line VV in FIG.
In the following description, the right side is “forward” and the left side is “rearward” in FIG. 1, and the left side is “forward” and the right side is “rearward” in FIGS. 2 and 3.
[0011]
(1) is a sliding door as a moving body which is supported on a vehicle body panel (2) as a fixed body in a vehicle so as to be openable and closable in the front-rear direction. The vehicle body panel is guided in the front-rear direction by an upper rail, a lower rail, and a front-rear-facing center rail (3) fixed to a rear body panel (2). While moving slightly outward from the outer surface of (2), it can move between a fully open position (not shown) moved rearward along the vehicle body panel (2).
[0012]
Reference numeral (4) denotes an opening / closing device mounted inside the vehicle body panel (2). As shown in FIGS. 2 and 3, a base plate (5) fixed inside the vehicle body panel (2) by bolts (not shown). A base plate (5) has a motor (6) capable of rotating forward and reverse, a gear box (7) having a gear for reducing rotation of the motor (6) and outputting the gear and an electromagnetic clutch, and the like, A rotating drum (9) pivotally mounted by a pivot (8) facing in the direction (vehicle width direction) and meshing with a gear of a gear box (7) and capable of rotating forward and reverse, and an outer peripheral surface of the rotating drum (9). A door-opening cable (10) and a door-closing cable (11), which are wound around the provided spiral groove so as to be able to be sent and retracted, and are disposed before and after the rotating drum (9). Cable for cable (10) and cable for door (11) Front of the tensioning device for applying tension (12) and the rear part of the tensioning device (13) are provided on respectively.
[0013]
(14) is a front guide member fixed to the vehicle body panel (2) near the front end of the center rail (3), and a pulley (14a) rotatable around an axis extending in the vertical direction is provided inside the front guide member. Being pivoted. (15) is a rear guide member fixed to the vehicle body panel (2) near the rear end of the center rail (3), and a pulley (15a) rotatable around an axis extending in the vertical direction is provided inside the guide member. Being pivoted.
[0014]
(16) is a flexible cable which is slidably inserted through the door opening cable (10) and is disposed between the rear portion of the base plate (5) and the guide member (15) so as to be slightly curved. The rear end is fixed to the guide member (15) and the front end is fixed to the rear part of the base plate (5).
[0015]
(17) is a flexible member in which a cable (11) for closing the door is slidably inserted, and is disposed between the front portion of the base plate (5) and the guide member (14) so as to be slightly curved. The front end of which is fixed to the guide member (14) and the rear end of which is fixed to the front of the base plate (5).
[0016]
The cable (10) extending from the rear end of the conduit (16) is wrapped around the pulley (15a) of the rear guide member (15) and is turned forward so as to follow the center rail (3). The cable end (10a) fixed to the terminal while being arranged is connected to the moving member (1a) of the sliding door (1) slidably fitted to the center rail (3).
[0017]
The cable (11) extending from the front end of the conduit (17) is wrapped around the pulley (14a) of the front guide member (14), is turned backward, and follows the center rail (3). And the cable end (11a) fixed to the terminal is connected to the moving member (1a).
[0018]
The motor (6) rotates the rotary drum (9) counterclockwise in FIGS. 2 and 3 through gears in the gear box (7), and winds the door-opening cable (10) to close the door. The moving member (1a) is retracted along the center rail (3) by sending out the cable (11), and the sliding door (1) can be opened.
[0019]
The rotating member (1a) is rotated by rotating the rotating drum (9) clockwise in FIGS. 2 and 3, sending out the cable (10) for opening the door, and winding up the cable (11) for closing the door. ) Can be advanced along the center rail (3) to close the sliding door (1).
[0020]
Next, the configuration of the tensioning devices (12) and (13), which are features of the present invention, will be described.
Since the front and rear tension devices (12) and (13) are symmetrical, the front tension device (12) will be described as a representative.
[0021]
The tension device (12) is fixed to the base plate (5) by a bolt (not shown) oriented in the left-right direction, and has a casing (18) through which the cable (11) is inserted in the front-rear direction. The cover (21) is provided with a guide portion (18a) oriented in the up-down direction, that is, a direction intersecting the moving direction of the cable (11), and is provided continuously at the upper end of the guide portion (18a), and is provided with the cable (11). And a locking portion (18b) serving as a hook-shaped locking means formed to bend along the movement direction of (1). The guide portion (18a) is formed in a tension region where tension can be applied to the cable (11), and the locking portion (18b) does not tension the cable (11). Formed in the area. In the present embodiment, the locking portion (18b) forms locking means.
[0022]
Between the casing (18) and the cover (21) for closing the opening side of the casing (18), a shaft (22a) provided at the lower end is slidable and rotatable on the guide (18a). And an arm (22) fitted into the arm (22), and is pivotally attached to the upper end (free end) of the arm (22) by a shaft (24) facing left and right, and is movable along the guide portion (18a). The pulley (23) and one end (20a) are hooked to the lower part of the arm (22), and the other end (20b) is hooked to the casing (18), so that the arm (22) A spring (20) for urging the pulley (23) in a direction in which the pulley (23) comes into contact with the cable (11) is housed. FIG. 3 shows a state where the cover (21) is removed to show the internal structure of the casing (18). In this embodiment, the contact means is formed by the arm (22) and the pulley (23).
[0023]
The cable (11) is moved in the moving direction near the guide (18a) in the casing (18), that is, in the vicinity of the pulley (23) movable along the guide (18a) and on the moving path of the cable (11). A cable guide portion (18c) that slides along is provided. The cable guide portion (18c) is formed in a curved shape protruding toward the cable (11), and can smoothly guide the cable (11) in the movement direction on the curved upper surface.
[0024]
On the side of the casing (18) facing the rotating drum (9), an opening (18d) that is largely open in the vertical direction is provided. This is to prevent the cable (11) from interfering with the casing (18) when the cable (11) is vertically displaced by the urging force of the spring (20) in accordance with the slack of the cable (11). is there.
[0025]
As described above, the arm (22) has the shaft portion (22a) at the lower end portion slidably and rotatably fitted to the guide portion (18a), and the outer side of the pair of left and right side pieces (22b). And a guide protrusion (22c) coaxial with the shaft (24) is slidably fitted to the guide portion (18a) and the locking portion (18b).
[0026]
As shown in FIG. 3, when the guide projection (22c) is fitted to the guide portion (18a), the pulley (23) comes into contact with the cable (11) by the urging force of the spring (20). The cable (11) can be moved in a tension region where tension can be applied to the cable (11), and when the cable (11) is assembled, as shown in FIG. By fitting the (22c) to the locking portion (18b), the cable (11) is held in a non-tension region where tension is not applied to the cable (11).
[0027]
FIG. 3 shows an operation state when the sliding door (1) is closed. The rotating door (9) is rotated clockwise in FIG. ) And the cable (11) for closing the door is wound up. In this state, since the sent-out cable (10) for opening the door is slackened, the pulley (23) of the tension device (13) at the rear portion pushes the cable (10) downward by the urging force of the spring (20). When pressed, tension is applied to the cable (10) to absorb slack. In this state, the portion of the cable (10) where the slack is absorbed is guided by contacting the cable guide portion (18c), so that the slack of the cable (10) can be reliably absorbed. Moreover, since the upper surface with which the cable (10) slides is formed in an arc shape, the cable (10) can be guided smoothly.
[0028]
On the other hand, since the cable for closing the door (11) on the side to be wound is not slackened, the front pulley (23) is positioned at the upper end against the urging force of the spring (20). I have. When the rotating drum (9) is rotated clockwise, the slack of the cable (11) is absorbed by the front tension device (12), contrary to the above.
[0029]
Next, a procedure for connecting the cables (10) and (11) to the slide door (1) will be described.
Before connecting the cable ends (10a) and (11a) of the cables (10) and (11) to the moving member (1a), respectively, the arm (22) and the pulley (23) of the tension devices (12) and (13) are connected. The guide (18a) is moved above the guide portion (18a) against the urging force of the spring (20), and the guide protrusion (22c) is engaged with the locking portion (18b). As a result, the pulley (23) is temporarily held in the non-tension region where the pulley (23) does not come into contact with the cable (10) (11). Accordingly, tension is not applied to the cables (10) and (11) during the connection work of the cables (10) and (11), and thus the efficiency of the connection work is improved.
[0030]
After connecting the cable ends (10a) and (11a) of the cables (10) and (11) to the moving member (1a), the guide projection (22c) is detached from the locking portion (18b), and the guide portion (18a) is removed. ), The temporary holding can be easily released. Thereby, the pulley (23) is moved below the tension region by the urging force of the spring (20) via the arm (22), and abuts on the cables (10) and (11) to apply tension. . As described above, in the tension devices (12) and (13) of the present embodiment, the arm (22) and the pulley (23) can be temporarily and reliably temporarily held, and the temporary holding can be easily released. Thus, the cables (10) and (11) can be quickly assembled.
[0031]
In the above embodiment, the present invention is applied to the opening and closing device (4) for opening and closing the slide door (1). However, the present invention is not limited to this, and other opening and closing such as a window regulator for opening and closing window glass. It can also be applied to devices. Further, the free end of the arm (22) may be brought into contact with the cables (10) and 11 without providing the pulley (23) on the arm (22).
[0032]
【The invention's effect】
According to the present invention, the following effects can be obtained.
(A) According to the first aspect of the present invention, the contact means can be temporarily held in the non-tension region, so that the cable is easily and reliably connected to the moving body in a state where tension is not applied to the cable. be able to.
[0033]
(B) According to the second aspect of the invention, in addition to the effect of the first aspect, the pulley can be moved from the tensioned region to the non-tensioned region with a simple structure, and the pulley can be securely moved. It can be temporarily held in the tension area.
[0034]
(C) According to the third aspect of the invention, in addition to the effects of the first or second aspect, the slack of the cable can be reliably absorbed. In addition, since the surface facing the cable is formed in an arc shape, the cable can be smoothly slid.
[Brief description of the drawings]
FIG. 1 is a perspective view of a vehicle including a slide door to which an embodiment according to the present invention is applied.
FIG. 2 is a front view of the opening / closing device as viewed from the indoor side.
FIG. 3 is an enlarged front view of the opening / closing device.
FIG. 4 is an exploded perspective view of the tension device.
FIG. 5 is a vertical sectional view taken along line VV in FIG. 2;
[Explanation of symbols]
(1) Sliding door (moving body)
(1a) Moving member (2) Body panel (fixed body)
(3) Center rail (4) Opening / closing device (5) Base plate (6) Motor (7) Gear box (8) Axis (9) Rotary drum (10) Cable for opening door (10a) Cable end (11) For closing door Cable (11a) cable end (terminal)
(12) (13) Tension device (14) Guide member (14a) Pulley (15) Guide member (15a) Pulley (16) (17) Conduit (18) Casing (18a) Guide part (18b) Locking part ( Stop means)
(18c) Cable guide (18d) Opening (20) Spring (20a) (20b) End (21) Cover (22) Arm (contact means)
(22a) Shaft (22b) Side piece (22c) Guide protrusion (23) Pulley (contact means)
(24) Shaft

Claims (3)

In a cable tension device configured to apply tension to a cable connected to a moving body movably supported by a fixed body,
In a direction intersecting with the moving direction of the cable, a contact means movable to a tension area capable of contacting the cable and a non-tension area not abutting, and when the contact means is in the tension area, A spring for urging the abutting means so as to apply tension to the cable, and a locking means for temporarily holding the abutting means in a non-tension region against the urging force of the spring; A cable tension device comprising: The contact means includes an arm slidably and rotatably fitted to a guide portion provided on the fixed body so as to intersect the moving direction of the cable, and an arm provided at a free end of the arm, and A pulley movable between a tension region that can abut against and a non-tension region that does not abut, and the locking means is connected to an end of the guide portion so as to bend along the moving direction of the cable. The pulley is a locking portion that can be temporarily held in a non-tension region by engaging a free end of the arm slidably fitted to the guide portion. The cable tension device as described. A cable guide portion, in which the cable slides along the moving direction, is provided in the vicinity of the contacting means and on the moving path of the cable, and the cable guide portion has a curved shape protruding toward the cable. 3. The cable tension device according to 1 or 2.

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