KR102027998B1 - Carrier plate for window regulator - Google Patents

Abstract

The present invention relates to a carrier plate for a window regulator, and more particularly to raising or lowering in contact with a vertically extending guide rail, which is driven by a wire to raise or lower the window between the open and closed positions. A carrier plate for a window regulator, comprising: a rail receiving portion for receiving the guide rail to move along a guide rail; And an accommodating pocket part accommodating a wire having a stopper at an end thereof and a coil spring contacting the stopper of the wire, wherein the accommodating pocket part has an inlet having a predetermined width corresponding to the wire so that only the wire passes through the accommodating pocket part. And a middle portion communicating with the inlet and having a larger width than the inlet and accommodating the wire and coil spring, wherein the first portion adjacent to the inlet is at the intermediate portion. The carrier plate is smaller than the width of the second part other than the first part so as to be pressed against the inner wall of the first part when the coil spring is inserted into the middle part.

Description

Carrier plate for window regulator

The present invention relates to a carrier plate for a window regulator, and more particularly, to a carrier plate for a window regulator for suppressing chattering phenomenon in which tension and compression of a spring provided in the carrier plate is repeated during the window descending. will be.

In general, the vehicle is provided with at least two entrances and exits for occupants, and is provided with a front door and a rear door at the front of the vehicle. The door is provided with a window glass that opens and closes up and down by a passenger's choice.

As shown in FIG. 1, a channel 11 into which the rear side of the window glass 20 is fitted is provided in the door panel 10 so that the rear window glass 20 can be slid inwards and outwards. A pillar 12 serving as a channel 11 is provided on the front side of the window glass 20, and the window glass 20 is placed on the bottom surface of the window glass 20. Carrier plate 30 is installed to be connected to a motor (not shown) provided to move up and down to perform the driving.

In addition, a glass run 40 is mounted on the rear channel 11 and the pillar 12 frame to prevent shaking of the rear window glass 20.

On the other hand, the vehicle is provided with a window regulator for elevating the window glass, the carrier plate 30 is mounted on the window glass to guide the lifting, and by lifting the carrier plate 30 with the regulator to operate the window glass Will let you. In this case, a wire 32 is mounted to the carrier plate 30, and the lifting and lowering operation of the window glass is performed by being pulled upward or downward by the regulator.

When the window glass is lowered, the carrier plate 30 is pulled downward by the regulator, and the window glass is lowered along the carrier plate while being caught in the glass run.

In this way, the window glass is pulled by the friction force in the process of descending while the window glass is sandwiched by the glass run, so that the window glass may not fall. At this time, the wire 32 pulls the carrier plate 30 while compressing the spring 31 further, and when the pulling force by the wire 32 exceeds a predetermined level, the window glass overcomes the friction force and drops sharply. .

As such, when the window glass descends abruptly, the spring is stretched and stretched due to the difference between the length of the wire 32 and the length of the window glass falling. The tension and compression of the spring may be repeated several times as the window glass is lowered. The tension and compression of the spring may cause excessive noise during the operation of the regulator or impair the reliability of the overall operation of the regulator. It becomes the factor to let you do it.

The present invention has been made to solve the above-mentioned problems, and more particularly, to provide a carrier plate for a window regulator in which the spring inside the carrier plate minimizes the chattering phenomenon in which tension and compression are repeated during the window regulator process. It is intended for technical purposes.

Carrier plate of the present invention for achieving the above-described technical object, the window regulator is raised or lowered in contact with the guide rail extending in the vertical direction, driven by the wire to raise or lower the window between the open position and the closed position In the carrier plate for,

A rail receiving portion accommodating the guide rail to move along the guide rail; And

And a receiving pocket portion accommodating a wire provided with a stopper at an end thereof and a coil spring contacting the stopper of the wire.

The accommodation pocket portion,

An inlet having a predetermined width corresponding to the wire such that only the wire passes;

A middle portion communicating with the inlet and having a larger width than the inlet and accommodating the wire and coil spring together;

The first portion adjacent to the inlet portion in the middle portion is smaller than the width of the second portion, which is the portion other than the first portion in the middle portion, to be restrained on the inner wall of the first portion when the coil spring is inserted in the middle portion. Is fitted.

In the carrier plate,

In the second portion, a stopper of the wire may be disposed.

In the carrier plate,

A portion of the coil spring is disposed in the first portion and the remaining portion of the coil spring is disposed in the second portion,

The first portion may be in contact with the outer circumferential surface of the coil spring to press the coil spring to suppress the coil spring from being tensioned.

In the carrier plate,

A step may be provided between the first portion and the second portion.

In the carrier plate,

The width of the second portion may be larger than the outer diameter of the spring.

The present invention has an advantage of suppressing tension of the coil spring as much as possible by applying pressure to the coil spring disposed on the receiving pocket of the carrier plate, thereby minimizing the phenomenon that the coil spring repeats tension and compression.

1 is a view showing the interior of a car door according to the prior art.
FIG. 2 is a view showing a state in which the window glass of FIG. 1 is fitted into a glass run. FIG.
3 is a view showing a carrier plate for elevating the window glass of FIG.
4 is an enlarged view of a part of the carrier plate of FIG. 3;
5 is a front view of a carrier plate according to an embodiment of the present invention.
6 is a rear view of the carrier plate of FIG. 5;
7 is a perspective view of the carrier plate of FIG. 5.
8 is a VIII-VIII cross-sectional view of FIG. 7.
9 is a view showing a state in which a wire and a coil spring is mounted on the carrier plate of FIG.

Hereinafter, a carrier plate according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The carrier plate 100 according to the present invention includes a window mounting part 110 for fitting and fixing a window glass, and a slide body 120 coupled to the window mounting part 110 and slidably moving on a guide rail. The window mounting unit 110 is a window glass (not shown) between a pair of opposing mounting plate 111 in a state in which the mounting plate 111 is in close contact with the window glass by bolt fastening or the like, the window glass As it is fixed to, the same as the known art, detailed description thereof will be omitted.

The slide body 120 is raised or lowered while being in contact with a guide rail (not shown) extending in the vertical direction, and is driven by the wire 160 to raise or lower the window between the open position and the closed position.

The slide body 120 has a rectangular plate shape as a whole, and is configured such that the wire 160 and the coil spring 150 are fitted on one side and the guide rail is inserted on the other side, and the rail receiving portion 130 and the receiving pocket portion ( 140).

The rail accommodating part 130 accommodates the guide rail so that the carrier plate 100 moves along the guide rail. In detail, the rail receiving unit 130 has a structure in which the carrier plate 100 moves from the guide rail without removing the guide rail having the bent portion bent at one side in the shape of "a" therein. Has

Specifically, the rail receiving portion 130 is provided with a locking portion 131 having a predetermined space therein so as to accommodate the bent portion of the guide rail therein at the top and bottom of the rail receiving portion 130, respectively. As the guide rail is accommodated in the engaging portion 131, the carrier plate 100 slides along the guide rail in a state where the guide rail is inserted into the rail accommodating part 130. In this process, the carrier plate ( 100) does not fall out of a guide rail.

The receiving pocket 140 is provided on the upper side and the lower side of the slide body 120, respectively, so that two wires 160 can be inserted, respectively.

The accommodating pocket 140 includes a wire 160 provided with a stopper 161 at an end thereof and a coil spring 150 contacting the stopper 161 of the wire 160.

The accommodation pocket 140 is provided on one side of the slide body 120 and includes an inlet 141 and an intermediate portion 142.

The inlet 141 has a predetermined width corresponding to the wire 160 so that only the wire 160 passes. In detail, the inlet 141 has a somewhat larger width than the wire 160 so that the wire 160 passes and has a slit shape. The wire 160 accommodated in the inlet 141 is moved in the longitudinal direction according to the rotation of the drum (not shown).

The intermediate portion 142 is in communication with the inlet portion 141 and has a width larger than the inlet portion 141 and is a portion in which the wire 160 and the coil spring 150 are accommodated together, and have a substantially circular cross section. Will have Part of the intermediate portion 142 will have a gap opened along the longitudinal direction.

The intermediate portion 142 includes a first portion 1421 and a second portion 1422.

The first part 1421 is a part connected to the inlet part 141 in the middle part 142 and is adjacent to the inlet part 141. An end portion of the coil spring 150 is inserted into the first portion 1421, and has a width smaller than an outer diameter of the coil spring 150 so that the coil spring 150 is fitted. As described above, when the width of the first portion 1421 has a diameter smaller than the outer diameter of the coil spring 150, the coil spring 150 is inserted into the first portion 1421. It is fitted to the inner wall and thus the coil spring 150 is subjected to a constant load. That is, by suppressing the tension of the compressed coil spring 150 to the maximum, the coil spring 150 may be unnecessarily tensioned.

The first portion 1421 is not preferably formed over the entire length of the coil spring 150, it is preferable that only the portion of the coil spring 150 is formed. Specifically, the length of the first portion 1421 may have a length less than half of the entire length of the coil spring 150. This is because when the size of the first portion 1421 is excessively long, the compression of the coil spring 150 is excessively disturbed. Basically, the coil spring 150 restricts the length of the first portion 1421 to perform a function of suppressing excessive tension of the coil spring 150 in a state in which compression is possible to some extent by the wire 160. It is good.

The second portion 1422 is a portion disposed to be spaced apart from the inlet portion 141 so that the first portion 1421 is positioned between the inlet portion 141 and the width D2 of the second portion 1422 is It is larger than the width D1 of the first portion 1421. The second portion 1422 is a portion in which the rest of the coil spring 150 and the stopper 161 provided at the end of the wire 160 and the wire 160 are disposed together. Specifically, the second portion 1422 has a width larger than the outer diameter of the coil spring 150 and has a width larger than that of the stopper 161 to facilitate compression of the coil spring 150 as well as the wire 160. ) And the stopper 161 can be easily moved in the second portion (1422).

Since the first portion 1421 and the second portion 1422 have different widths from each other, a step 1423 having a changed width is provided therebetween. The stepped 1423 has a gentle inclination angle rather than a sharp inclination angle, so that the coil spring 150 may be inserted into the first portion 1421 rather than being inserted into the first portion 1421.

The carrier plate 100 for the window regulator according to the present invention has the following effects.

First, the window regulator is operated to lower the window glass closing the door. In this case, as the wire 160 moves, the stopper 161, which is the end of the coil, lowers the carrier plate 100 while compressing the coil spring 150 to an appropriate level.

On the other hand, when the window glass is caught by the glass run and is not lowered by the friction force, the coil spring 150 is further compressed to increase the pulling force on the window glass. Thereafter, the window glass overcoming the frictional force of the glass run is suddenly lowered. At this time, a part of the coil spring 150 is pressed against the first portion 1421 of the accommodation pocket 140 so that a constant load is applied thereto. This will prevent excessive tension. That is, the coil spring 150 is not excessively tensioned after excessive compression as in the prior art, and in the present invention, there is no excessive tension after compression, thereby minimizing the conventional chattering phenomenon.

As the chattering phenomenon is minimized, noise can be minimized and a function of regulating abnormal operation of the regulator can be performed.

In the above-described embodiment, the inner diameter of the first portion is narrower than the outer diameter of the coil spring as a whole, so that the load is applied to the coil spring by pressing the coil spring. However, the present invention is not limited thereto, and the width of the first portion is not limited thereto. It is also possible for the coil spring to be loaded in a narrow area of the first part by reducing the pressure.

In addition, by forming a predetermined concave-convex in the first portion, it is also possible to force the load on the coil spring by forcing the coil spring in the concave-convex of the first portion.

Although the present invention has been described with reference to various embodiments, the present invention is not limited thereto, and any thing that can be reasonably interpreted from the scope of the present invention will naturally belong to the scope of the present invention.

100 ... carrier plate 110 ... window mount
111.Mounting plate 120.Slide body
130 ... rail receiver 131 ... hook
140 ... accommodation pocket 141 ... inlet
142 Middle 1421 Part 1
1422 ... Part 2 1423 ...
150 ... coil spring 160 ... wire
161 ... stopper

Claims (5)

A carrier plate for a window regulator which is raised or lowered in contact with a guide rail extending in a vertical direction and driven by a wire to raise or lower a window between an open position and a closed position,
A rail receiving portion accommodating the guide rail to move along the guide rail; And
And a receiving pocket portion accommodating a wire provided with a stopper at an end thereof and a coil spring contacting the stopper of the wire.
The receiving pocket portion,
An inlet having a predetermined width corresponding to the wire such that only the wire passes;
A middle portion communicating with the inlet and having a larger width than the inlet and accommodating the wire and coil spring together;
The intermediate part may include a first part connected to the inlet part, a second part spaced apart from the inlet part, and having a width greater than that of the first part, connecting the first part and the second part, and the coil spring having the second part. A stepped portion having an inclined surface in which the inner diameter decreases toward the first portion so as to be easily inserted into the first portion from the portion,
The width of the first portion is smaller than the outer diameter of the coil spring so that a portion of the coil spring is inserted into the first portion by inserting a portion of the coil spring into the inner wall of the first portion when the coil spring is inserted in the middle portion. Suppresses elastic deformation,
The width of the second portion is greater than the outer diameter of the coil spring so that the remaining portion of the coil spring located in the second portion is freely elastically deformed,
And the length of the first portion is shorter than the second portion and is less than half the full length of the coil spring. The method of claim 1,
A carrier plate for the window regulator, characterized in that the stopper of the wire is disposed in the second portion. delete delete delete

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