KR20230072838A - Cable-Slider for Window Regulator of Car - Google Patents

Abstract

The present invention relates to a cable slider for a vehicle window regulator, which converts a cable direction of the regulator that controls opening and closing of a window glass, thereby having an effect of greatly reducing operational noise or vibrations. The cable slider for a vehicle window regulator comprises: a slider in which a member having an arc-shaped curved surface is formed at an outer contact unit converting a direction of a cable, and a slide guide as a channel with a concave parabolic cross-section is formed at the arc-shaped curved surface, so as to guide the movement of the cable; a cable separation prevention unit which is formed at one end of a parabola formed by a channel cross-section of the slide guide, and protrudes toward the one end of the parabola formed by the channel cross-section to be spaced at a certain interval apart from a channel surface along a part or all of the slide guide to be disposed to face the slide guide so as to prevent the separation of the cable; and a slider mounting unit which is formed on a module panel surface at a position including at least any one side of both ends of a rail and to which the slider is fixed and mounted so that the slide guide faces in the opposite direction of the end of the rail.

Description

Cable Slider for Window Regulator of Car {Cable-Slider for Window Regulator of Car}

The present invention relates to a structure for changing the direction of a cable in a window regulator that controls the opening and closing of a window glass, and more particularly, is composed of a member having an arc-shaped curved surface at an outer contact portion for changing the direction of a cable, and the arc-shaped curved surface has a concave structure. A slide guide, which is a channel with a parabolic cross section, is formed to guide the movement of the cable, and the channel section of the slide guide is formed at one end of the parabola formed by the channel section of the slide guide and is spaced apart from the channel surface at a certain interval along part or all of the slide guide. A cable breakaway preventing part that protrudes toward one end of the parabolic curve formed and is disposed opposite to the slide guide to prevent cable breakaway, and is formed on the surface of the module panel at a position including at least one of both ends of the rail, and the slide guide is positioned at the end of the rail. It relates to a cable slider for a vehicle window regulator comprising a slider mounting portion in which the slider is fixedly mounted so as to face in the opposite direction.

In general, in order to open and close a window by raising and lowering a glass mounted on a vehicle door, a window regulator module is installed inside the vehicle door, and the window regulator module is mounted on a module panel 1 installed inside the vehicle door.

As shown in FIG. 1, rails 11 are formed on the surface of the module panel 1 along the vertical direction of the door, pulleys are installed at both ends of the rail 11, and a forward direction is provided between the upper and lower pulleys by a driving motor. Alternatively, a drum 12 with reverse rotation is mounted.

Two cables 20 with one end fixed to the drum 12 are wound in opposite directions to each other, the cables 20 are changed in direction by the upper and lower pulleys, and the rails 11 are disposed between the upper and lower pulleys. The other end of the cable 20 is fixed to the carrier plate 13 connected thereto.

When the drum 12 is rotated by the driving of the driving motor, the cable 20 wound around the drum 12 is wound or unwound, and thus the rotational motion of the drum 12 is the linear motion of the cable 20. , and while the carrier plate 13 is guided by the rail 11 according to the rotation direction of the drum 12, the glass 30 fixed to the carrier plate 13 is raised or lowered through the clamp. window opening and closing

The structure of the window regulator 10 that changes the direction of the cable 20 by the pulley is made by an assembly method in which the pulley is coupled through riveting processing of the pulley pin, or Republic of Korea Patent Registration No. 10-1610537 (April 2016. In 01. Registration), after mounting the pulley on the protruding pulley pin integrally formed with the module panel 1, the pulley is fixed by mounting a stop ring to prevent the pulley from leaving, and the outer circumferential surface of the pulley pin and the stop ring It is formed in a rotational manner of a pulley coupled to a pulley pin, like a pulley assembly of an automobile window regulator, in which locking protrusions are formed on the inner circumferential surface in a complementary form.

However, in the above combination of pulley pins and pulleys, the pulley is inserted into the pulley pin, a washer is applied for smooth rotation of the pulley, and the process time is reduced in the process of fixing the pulley and pulley pin to each other through the riveting process. There was a problem that the efficiency of the assembly process was lowered due to the increase.

In addition, when excessive tension is generated in the cable 20 during the assembly process of the regulator 10 or the process of opening and closing the glass 30 according to the operation of the window regulator 10, shear force is applied to the upper and lower pulleys and pulley pins toward the center of the door As a result, the tilt of the pulley or the pulley pin may occur, and operating noise or vibration may occur due to the fluctuation of the pulley during the opening and closing operation of the glass 30.

In addition, as shown in FIG. 2, a separation prevention rib may be formed on the surface of the module panel 1 to prevent the cable 20 from escaping from the pulley by being disposed on the side of the pulley. The gap between the separation prevention ribs is not formed uniformly.

Accordingly, if the distance between the pulley and the separation prevention rib is narrower than the design standard, difficulties may occur in performing the assembly process of inserting the cable 20 into the gap between the pulley and the separation prevention rib, and conversely, the gap between the pulley and the separation prevention rib If it is wider than the design standard, the separation prevention rib cannot support the surface of the cable 20 to be separated, so the possibility of cable 20 separation increases.

Republic of Korea Patent Registration No. 10-1610537 (registered on 2016.04.01)

In an embodiment of the present invention, the existing fixing method by riveting of a pulley and a pulley pin applied to change the direction of a cable when the regulator is operated for opening and closing the window glass is improved, and assembly of the cable direction changing part of the window regulator It aims to improve process efficiency.

An object of an embodiment of the present invention is to improve the structure of a cable direction conversion unit composed of an existing coupling method between a pulley and a pulley pin, thereby reducing noise or vibration caused by tilting of a pulley due to tension acting from a cable.

In an embodiment of the present invention, to improve the structure of the existing cable direction conversion unit in which the separation prevention rib is formed on the surface of the module panel to be disposed on the side of the pulley mounting unit, to prevent difficulty in cable connection or increase in the possibility of cable separation due to assembly distribution do.

According to an embodiment of the present invention, a rail formed along the vertical direction of a module panel mounted inside a car door, a drum mounted at a predetermined interval from the central part of the rail, a carrier plate connected to the rail so as to be slidable, and both ends of the rail A window regulator is composed of a slider mounted at a position including at least one side, and a cable whose end is connected to the drum and carrier plate and whose direction is changed by the slider to control the opening and closing of the window glass, but to change the direction of the cable. It consists of a member with an arc-shaped curved surface formed on the outer contact part, and a slide guide, which is a channel with a concave parabolic cross-section, is formed on the arc-shaped curved surface to guide the movement of the cable, and one end of the parabola formed by the channel cross-section of the slide guide. It is formed in, protrudes in the direction of one end of the parabolic curve formed by the channel cross section so that it is spaced apart from the channel along part or all of the slide guide, and is disposed opposite to the slide guide, thereby preventing the cable from leaving the cable, the amount of rail It is formed on the surface of the module panel at a position including at least one of the ends and is composed of a slider mounting portion fixedly mounted with a slider so that the slide guide faces the opposite direction to the end of the rail.

According to an embodiment of the present invention, a rail formed along the vertical direction of a module panel mounted inside a car door, a drum mounted at a predetermined interval from the central part of the rail, a carrier plate connected to the rail so as to be slidable, and both ends of the rail A window regulator is composed of a slider mounted at a position including at least one side, and a cable whose end is connected to the drum and carrier plate and whose direction is changed by the slider to control the opening and closing of the window glass, but to change the direction of the cable. It consists of a member with an arc-shaped curved surface formed on the outer contact part, and a slide guide, which is a channel with a concave parabolic cross-section, is formed on the arc-shaped curved surface, and is formed on some or all of the slide guide and slider that guides the movement of the cable. A closed surface is formed by connecting both ends of a parabola formed by the channel cross section of the guide, and a cable passage prevention part prevents the cable from escaping by passing the cable through the closed surface, and a position including at least one of both ends of the rail. It is formed on the surface of the module panel and consists of a slider mounting portion in which a slider is fixedly mounted so that the slide guide faces the opposite direction to the end of the rail.

According to an embodiment of the present invention, the radius of curvature of the curved surface formed by the channel partially increases on the surface of the slide guide at a position opposite to the cable separation prevention unit, or toward the slider mounting portion from both ends to the center of the cable separation prevention unit A non-contact section maintaining a non-contact state with the surface of the cable wound on the surface of the slide guide is formed.

According to an embodiment of the present invention, the slide guide has an arc curved surface formed on the inside and outside to form a horseshoe shape, and a flow prevention protrusion protruding at a certain height is formed on the inner arc curved surface of the slide guide, and on the side surface of the slider mounting part. The anti-flow protrusion and the anti-flow groove recessed in a complementary shape are formed so that the anti-flow protrusion and the anti-flow groove are fixed when the slider is coupled to the slider mounting portion.

According to an embodiment of the present invention, a flat cylindrical cable end fixed to a drum or carrier plate is formed at the end of the cable, and the inner surface of the cable separation prevention part and the surface of the slide guide are spaced apart so as to form a gap greater than the diameter of the cable end When the cable is seated on the surface of the slide guide, the cable end is inserted from the opening in one direction of the cable separation prevention part.

According to an embodiment of the present invention, the assembly of the cable direction conversion unit of the window regulator is simplified by mounting a slider on the slider mounting part, inserting the cable into the open gap between the slider and the cable separation prevention unit, and seating it in the slide guide to simplify the assembly process. There is an effect that can improve process efficiency.

According to an embodiment of the present invention, a cable is seated on a slide guide in which a channel having a parabolic cross-sectional shape is formed, and the direction of the cable of the window regulator is changed by the slide movement, thereby operating noise or vibration compared to a conventional structure for changing the direction of a cable to which a pulley is applied. There is an effect that can significantly reduce the occurrence.

According to an embodiment of the present invention, the cable separation prevention unit is formed in a closed curved surface shape connecting both ends of a parabola formed by the channel cross section of the slide guide, thereby fundamentally preventing malfunction or failure of the window regulator while the cable is separated from the slide guide. There are effects that can be done.

According to an embodiment of the present invention, by forming a non-contact section that maintains a non-contact state with the surface of the cable whose direction is changed by being wound on the surface of the slide guide facing the cable separation prevention unit, the two mold cores are prevented from leaving the cable. The mold structure inserted from both sides of the part prevents burrs formed in the non-contact section where the contact part between molds is located from contacting the surface of the cable, reducing noise or vibration generated during operation of the window regulator there is..

According to an embodiment of the present invention, a snap-in fastening is performed by engaging between a fixing hook formed at both ends of the slider and a hook engaging portion formed on the side of the slider mounting portion, thereby improving the efficiency of the assembly process of the cable direction conversion portion of the window regulator. It works.

According to an embodiment of the present invention, the slider is firmly fixed to the slider mounting portion by fitting between the anti-flow protrusion protruding on the surface of the slider and the anti-flow groove formed at the coupling portion of the slider mounting portion so as to form a complementary shape to the anti-flow protrusion. When the regulator operates, the movement of the slider is prevented from occurring due to the tension transmitted from the cable, so that noise or vibration generated during the regulator operation can be reduced.

According to an embodiment of the present invention, the protruding length of the cable breakaway prevention part made of a closed curved surface is extended and configured to be spaced apart at a distance larger than the diameter of the cylindrical part of the cable end constituting the flat cylindrical shape, so that the cable direction of the existing window regulator By enabling the connection of cables applied to the assembly structure of the switching unit, there is an effect of reducing the production cost of the window regulator module by improving the compatibility of parts or assembly processes.

1 is a view showing a general structure of a module panel and a window regulator mounted inside a door to open and close a window glass of a vehicle.
2 is a view showing a cable conversion structure of a pulley fixed to a module panel by a conventional pulley pin and a regulator to which a breakaway prevention rib is applied.
3 is a view showing the shape of the slider mounting portion in a coupled and separated state of the cable slider according to the present invention.
4 is a view showing the structure of a cable slider having a cable separation preventing portion connected to one end of a channel of a slide guide according to the present invention.
5 is a view showing the structure of a cable slider having a cable breakaway prevention part formed with a closed curved surface connected to both ends of a channel of a slide guide according to the present invention.
Figure 6 is a cable separation prevention unit connected to one end of the channel of the slide guide according to the present invention and a cable slider having a non-contact section formed on the opposite channel surface and a cable separation prevention unit connected to both ends of the channel of the slide guide to form a closed surface. It is a diagram showing the structure of a cable slider in which a non-contact section is formed on the channel surface facing the inner surface.
7 shows a process in which burrs are formed at the contact portion between the molds where the parted molds are engaged when the cable separation prevention portion of the cable slider is formed by inserting two parted mold cores from the entrance and exit directions on both sides of the cable separation prevention portion. it is a drawing
8 and 9 are cross-sectional views showing a mechanism for preventing interference between a cable and a burr by a non-contact section formed on a channel surface of a slide guide according to the present invention.
10 is a view showing the structure of a cable separation prevention unit having an extended protruding length according to the present invention and a process of connecting a cable to which a flat cylindrical cable end is applied by passing through the expanded cable separation prevention unit.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

It will be described in detail focusing on the parts necessary for understanding the operation and action according to the present invention.

While describing the embodiments of the present invention, descriptions of technical contents that are well known in the technical field to which the present invention pertains and are not directly related to the present invention will be omitted.

This is to more clearly convey the gist of the present invention without obscuring it by omitting unnecessary description.

In addition, in describing the components of the present invention, different reference numerals may be assigned to components having the same name according to the drawings, and the same reference numerals may be assigned even though the drawings are different.

However, even in this case, it does not mean that the corresponding component has different functions according to embodiments, or that it has the same function in different embodiments, and the function of each component does not mean that each embodiment has a function. It will have to be judged based on the description of each component in .

In addition, technical terms used in this specification should be interpreted in terms commonly understood by those of ordinary skill in the art to which the present invention belongs, unless specifically defined otherwise in this specification, and are not excessively comprehensive. It should not be interpreted as meaning or in an excessively reduced meaning.

Also, singular expressions used in this specification include plural expressions unless the context indicates otherwise.

In this application, terms such as "consisting of" or "comprising" should not be construed as necessarily including all of the various components or steps described in the specification, and some of the components or some of the steps It should be construed that it may not be included, or may further include additional components or steps.

A cable slider for a vehicle window regulator according to an embodiment of the present invention is mounted on a module panel 1 installed inside an automobile door and changes the direction of the cable 20 of the regulator 10 that controls the opening and closing of the window glass 30. It's about rescue.

In the regulator 10, a rail 11 is formed along the vertical direction of the module panel 1, and a drum 12 is mounted so as to be spaced apart at a predetermined interval from the center of the rail 11 in either the front or rear direction of the vehicle, , The carrier plate 13 is connected to the rail 11 so as to be slidably movable along the vertical direction of the door.

The slider 100 is mounted at a position including at least one of both ends of the rail 11, both ends of the cable 20 are connected to the drum 12 and the carrier plate 13, respectively, and the cable ( 20) is bent by the slider 100 in a state where a part of the end is wound on the surface of the drum 12 and the direction is changed.

When the drum 12 rotates due to the operation of the driving motor, the rotational motion of the drum 12 is converted into the linear motion of the cable 20, which contacts the slider 100 mounted on the upper and lower ends of the rail 11. While each cable 20 is unwound from the drum 12 or wound around the drum 12, the carrier plate 13 moves along the rail 11 to the upper or lower side of the door according to the rotation direction of the drum 12. As a result, the glass 30 fixed to the carrier plate 13 moves up and down through the clamp, thereby controlling the opening and closing of the vehicle window.

As shown in FIG. 4, the slider 100 is made of a member formed with an arc-shaped curved surface at the outer contact portion where the cable 20 contacts and changes the traveling direction of the cable 20, and the slider 100 outer contact portion A slide guide 110 constituting a channel 111 having a concave parabolic cross-section is formed on the arc-shaped curved surface formed thereon.

When the regulator 10 is operated, a force in the direction in which the cable 20 separates from the slide guide 110 may act. The tension acting on the cable 20 is the slide guide formed by the parabolic cross-sectional shape of the channel 111 ( 110) guides the cable 20 to return to the center of the channel 111 along the slopes at both ends.

When the direction of the cable 20 is changed by the slider 100 according to the guidance of the slide guide 110, the amplitude of shaking of the cable 20 due to the external force acting on the sliding cable 20 can be alleviated or eliminated. Through this, it is possible to prevent the generation of noise and vibration due to fluctuations of the cable 20 during operation of the regulator 10.

A cable separation prevention unit 120 is formed at one end of the parabola formed by the cross section of the channel 111 of the slide guide 110. It protrudes and extends in the direction of one end of the parabola formed by the cross section of the channel 111, and is disposed opposite to the slide guide 110 so as to be spaced apart from the channel 111 by a predetermined interval.

When connecting the cable 20 to the regulator 10 in the car door assembly process, the cable separation prevention unit ( 120), one end of the parabolic line formed by the cross section of the channel 111 connected to the channel 111 is preferably formed in the direction of the module panel 1.

The cable separation prevention unit 120 may be formed along part or all of the slide guide 110, and even if the cable 20 swings in a direction away from the slide guide 110 due to an external force, the cable separation prevention By supporting the cable 20, the portion 120 prevents the cable 20 from being separated from the slide guide 110.

At this time, in order to more effectively prevent the breakaway of the cable 20, the other end of the parabola of the channel 111 and the inner surface of the cable breakaway prevention unit 120 form a gap smaller than the diameter of the cable 20. Preferably, the cable separation prevention unit 120 is made of an elastically deformable material so that the cable 20 can be connected to the regulator 10 smoothly.

As shown in FIG. 3, a slider mounting portion 200 to which the slider 100 is fixedly mounted is formed on the surface of the module panel 10 at the end of the rail 11 where the slider 100 is located, and is formed at the end of the rail 11. The formed slider mounting portion 200 has a mounting portion formed in the upper or lower direction of the door, and the direction of the cable 20 is changed by the slider 100 while the mounted slide guide 110 faces the opposite direction to the end of the rail 11. allow this to happen.

In the case where one side of the cable separation prevention unit 120 is open, the slide guide 110 is abraded by repeated operation of the regulator 10 after a long period of time, and the height of the parabola formed by the channel 111 is reduced. Or, as the durability of the cable separation prevention unit 120 is lowered, separation may occur in the gap between the slide guide 110 and the cable separation prevention unit 120 when an excessive external force is applied to the cable 20.

Therefore, as shown in FIG. 5, the cable separation prevention unit 120 forms a closed curved surface by connecting both ends of the parabola formed by the cross section of the channel 111 of the slide guide 110, and the cable separation prevention unit 120 closes the By configuring the cable 20 to pass through the inside of the curved surface, it is possible to fundamentally prevent the cable 20 from being separated.

When the cable separation prevention unit 120 forms a closed curved surface, after passing the cable 20 through the cable separation prevention unit 120 during the production of the slider 100, the cable 20 passes through the cable separation prevention unit 120 The cable end 21 fixed to the drum 12 or the carrier plate 13 at the end of the cable 20 may be formed by die casting or the like.

The molded cable end 21 is formed larger than the width of the inner surface of the closed curved surface formed by the cable separation prevention part 120, so that jamming occurs, and the combination of the cable 20 and the slider 100 is connected to the regulator 10. ) It is possible to prevent the cable 20 from being separated from the slider 100 in the process of transporting to the assembly line or assembling the regulator 10 .

And, when the cable end 21 forms a flat cylindrical shape as shown in FIG. 10, the inner surface of the cable separation prevention part 120 and the surface of the slide guide 110 are larger than the diameter of the cylindrical portion of the cable end 21 It can be configured by extending the protruding length of the cable separation prevention unit 120 to be spaced apart at intervals,

The cable 20 may be seated on the surface of the slide guide 110 while the cable end 21 is inserted and passed through the opening in one direction of the cable separation prevention unit 120 with an extended protruding length.

At this time, when molding the cable separation prevention unit 120 having one side open or closed, as shown in FIG. 7, two mold cores are placed in the direction of both entrances and exits of the cable separation prevention unit 120. A mold structure that is parted to be inserted is applied. Due to the nature of the parting structure in which two molds are engaged, a burr may be formed at the contact part between the molds, and the burr is a cable 20 formed by twisting a plurality of wires. Frictional interference occurs upon contact with the surface, which may cause noise or vibration generated during operation of the regulator 10 .

Therefore, as shown in FIG. 8, the non-contact section 112 formed with a radius of curvature larger than the radius of curvature of the curved surface formed by the channel 111 on the surface of the slide guide 110 facing the cable separation prevention unit 120 can form

Due to the large radius of curvature formed by the non-contact section 112, the surface of the non-contact section 112 forms a flattened shape, unlike the curved surface formed by the surface of the channel 111 in sections other than the non-contact section 112, and the slide guide ( 110) When the cable 20 is wound on the surface, the cable 20 is bent in an arc shape by the elasticity of the cable 20, and the surface of the cable 20 and the non-contact section 112 are spaced apart from each other by a predetermined interval.

Alternatively, as shown in FIG. 9, on the surface of the slide guide 110 facing the cable separation prevention unit 120, from both ends of the cable separation prevention unit 120 to the center, in the direction of the slider mounting unit 200 A non-contact section 112 made of a concave surface or a tapered surface may be formed so as to be inclined.

Accordingly, when a burr is formed by the parted mold structure when the cable separation prevention part 120 is formed, a burr is formed in the center of the non-contact section 112, and the cable 20 generated in the non-contact section 112 By preventing the occurrence of interference between the surface of the burr and the cable 20 by the separation of the burr, noise or vibration due to frictional interference between the burr and the cable 20 during operation of the regulator 10 is prevented. .

In addition, elastically deformable fixing hooks 130 are formed at both ends of the slider 100, and at the side of the slider mounting portion 200, when the slider 100 and the slider mounting portion 200 are fastened, the fixing hook 130 is caught. The hook holding portion 210 may be formed, and the assembly process of the regulator 10 may be simplified through a snap-in coupling structure between the slider 100 and the slider mounting portion 200.

In addition, the slide guide 110 has an arc curved surface formed on the inside and outside to form a horseshoe shape, and a flow prevention protrusion 140 protruding to a certain height may be formed on the inner arc curved surface of the slide guide 110. .

A flow prevention groove 220 recessed in a shape complementary to the flow prevention protrusion 140 is formed on the side surface of the slider mounting portion 200 to which the inner arc curved portion of the slide guide 110 is coupled, and the slider 100 and the slider mounting portion When coupling 200, the anti-flow protrusion 140 is inserted into the anti-flow groove 220 and coupled.

The slider 100 is firmly fixed to the slider mounting portion 200 by fitting between the anti-flow protrusion 140 and the anti-flow groove 220, and thus the tension transmitted from the cable 20 when the regulator 10 operates. As a result, the flow of the slider 100 is prevented, and the operation noise or vibration of the regulator 10 can be reduced.

Although the embodiments of the present invention have been described with reference to the above, those skilled in the art to which the present invention pertains will understand that the present invention can be embodied in other specific forms without changing the technical spirit or essential features.

Therefore, the embodiments described above should be understood as illustrative and not restrictive in all respects, and the scope of the present invention described in the detailed description is indicated by the claims to be described later, and the meaning and meaning of the claims All changes or modifications derived from the scope and equivalent concepts should be construed as being included in the scope of the present invention.

1: module panel 10: regulator
11: rail 12: drum
13: carrier plate 20: cable
21: cable end 30: glass
100: slider 110: slide guide
111: channel 112: non-contact section
120: cable separation prevention unit 130: fixing hook
140: flow prevention protrusion 200: slider mounting portion
210: hook hooking part 220: anti-flow groove

Claims (5)

The rail 11 formed along the vertical direction of the module panel 1 mounted inside the car door, the drum 12 mounted at a certain distance from the center of the rail 11, and connected to the rail 11 so as to be slidably movable. A carrier plate 13, a slider 100 mounted at a position including at least one side of both ends of the rail 11, the ends connected to the drum 12 and the carrier plate 13, and the slider 100 Control the opening and closing of the window glass 30 by configuring the regulator 10 with the cable 20 whose direction is changed by
It is made of a member with an arc-shaped curved surface at the outer contact part that changes the direction of the cable 20, and a slide guide 110, which is a channel 111 with a concave parabolic cross-section, is formed on the arc-shaped curved surface to move the cable 20 Slider 100 for guiding the movement of;
It is formed at one end of the parabola formed by the cross section of the channel 111 of the slide guide 110, and is formed by the cross section of the channel 111 so that it is spaced apart from the channel 111 at a predetermined interval along part or all of the slide guide 110. A cable separation prevention unit 120 protruding toward one end and being disposed opposite to the slide guide 110 to prevent the cable 20 from escaping;
It is formed on the surface of the module panel 10 at a position including at least one of both ends of the rail 11, and the slider 100 is fixedly mounted so that the slide guide 110 faces the opposite direction to the end of the rail 11. A slider mounting portion 200 to be;
A cable slider for a vehicle window regulator, characterized in that consisting of. The rail 11 formed along the vertical direction of the module panel 1 mounted inside the car door, the drum 12 mounted at a certain distance from the center of the rail 11, and connected to the rail 11 so as to be slidably movable. A carrier plate 13, a slider 100 mounted at a position including at least one side of both ends of the rail 11, the ends connected to the drum 12 and the carrier plate 13, and the slider 100 Control the opening and closing of the window glass 30 by configuring the regulator 10 with the cable 20 whose direction is changed by
It is made of a member with an arc-shaped curved surface at the outer contact part that changes the direction of the cable 20, and a slide guide 110, which is a channel 111 with a concave parabolic cross-section, is formed on the arc-shaped curved surface to move the cable 20 Slider 100 for guiding the movement of;
It is formed on part or all of the slide guide 110, and forms a closed surface by connecting both ends of a parabola formed by the cross section of the channel 111 of the slide guide 110, and the cable 20 passes through the inside of the closed surface, A cable breakaway prevention unit 120 preventing the cable 20 from coming off;
It is formed on the surface of the module panel 10 at a position including at least one of both ends of the rail 11, and the slider 100 is fixedly mounted so that the slide guide 110 faces the opposite direction to the end of the rail 11. A slider mounting portion 200 to be;
A cable slider for a vehicle window regulator, characterized in that consisting of. According to any one of claims 1 or 2 selected,
The radius of curvature of the curved surface formed by the channel 111 is partially increased on the surface of the slide guide 110 facing the cable separation prevention unit 120, or from both ends to the center of the cable separation prevention unit 120. A non-contact section 112 maintaining a non-contact state with the surface of the cable 20 wound on the surface of the slide guide 110 is formed by forming a concave surface inclined toward the slider mounting portion 200 while going Cable sliders for car window regulators. According to any one of claims 1 or 2 selected,
The slide guide 110 has an arc curved surface formed on the inside and outside to form a horseshoe shape, and a flow prevention protrusion 140 protruding at a certain height is formed on the inner arc curved surface of the slide guide 110, and the slider mounting portion ( 200) A flow prevention groove 220 recessed in a complementary shape to the flow prevention protrusion 140 is formed on the side surface, so that when the slider 100 and the slider mounting portion 200 are coupled, the flow prevention protrusion 140 and the flow prevention A cable slider for a vehicle window regulator, characterized in that the groove 220 is fixed. According to claim 2,
At the end of the cable 20, a flat cylindrical cable end 21 fixed to the drum 12 or carrier plate 13 is formed, and the inner surface of the cable separation prevention part 120 and the surface of the slide guide 110 are spaced apart so as to form a larger gap than the diameter of the cable end 21, and when the cable 20 is seated on the surface of the slide guide 110, the insertion of the cable end 21 from the opening in one direction of the cable separation prevention unit 120 A cable slider for a vehicle window regulator, characterized in that made.

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