KR100860106B1 - Bearing bush mounting structure of window lift motor shaft - Google Patents

Abstract

A supporting structure of a bearing bush for a window lift motor shaft is provided to easily adjust the mobility of the bearing bush and to simplify an assembly work of the bearing bush. A supporting structure of bearing bush for a window lift motor shaft comprises a gear housing(100) having a worm wheel received therein, a motor(200) having a motor shaft(210) formed with a worm gear engaging with the worm wheel, a bearing bush(300) installed at a position where the motor shaft penetrates through the gear housing to support the motor shaft. A clamping disk is installed at the inside of a disk insert hole(110) having a larger diameter than that of a bush insert hole into which the bearing bush is inserted. The clamping disk is provided at an outer peripheral surface thereof with a locking wing manufactured by bending a circular ring body toward the motor.

Description

Bearing bush mounting structure of window lift motor shaft

1 is a plan view showing a part of a window lift motor having a support structure of a bearing bush for supporting a window lift motor shaft according to the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1,

3 is a perspective view illustrating an example of a clamping disk installed in a support structure of a bearing bush for supporting a window lift motor shaft according to the present invention;

4 is a plan view showing a portion of a window lift motor having a support structure of a bearing bush for supporting a conventional window lift motor shaft;

5 is an enlarged view of a portion B of FIG. 4,

6 is a perspective view illustrating an example of a clamping disk installed in a support structure of a bearing bush for supporting a conventional window lift motor shaft.

<Code Description of Main Parts of Drawing>

1: clamping disc

  1a: main body

  11: elastic support wing 11a: bend

  12: hanging wing

The present invention relates to a support structure for supporting a bearing bush for supporting a window lift motor shaft, and more particularly, to a bearing bush for supporting a window lift motor shaft supporting an easy adjustment of flow force of the bearing bush and a simple assembly process. It relates to a support structure.

Furthermore, the present invention forms a plurality of elastic support wings for elastically supporting the bearing bush in the clamping disk for fixing the bearing bush to the gear housing, such that the bottom of the clamping disk is in close contact with the bottom of the groove in which the disk is installed. The present invention relates to a support structure of a bearing bush for supporting a window lift motor shaft, in which the clamping disc supports the bearing bush with a constant force, thereby reducing the change in the flow force of the bearing bush to more stably support the motor shaft.

In addition, the window lift motor shaft is configured such that the self-locking caused by the change in the flow force is not generated by reducing the change in the flow force even when the deformation or the time of the gear housing due to the high or low temperature has elapsed. The support structure of the bearing bearing bush for support.

In general, the window lift motor is used as a means of lifting and opening the side window of the vehicle.

An example of a window lift motor commonly known thereto is shown in FIG. 4.

As shown in the drawing, a conventional window lift motor 200 includes a gear housing 100 in which a worm wheel is built, and a motor shaft 210 in which a gear gear is formed to rotate the dignity wheel embedded in the gear housing 100. It is configured to include.

The window lift motor configured as described above supports the suspension of the motor shaft 210 as a support means for more stably supporting the motor shaft 210 having the worm gear formed thereon, and the support means is shown in FIG. It is configured by installing a bearing bush 300 in a hole formed on one side of the (100).

The bearing bush 300 supporting the interruption of the motor shaft 210 is supported not to be separated from the inside of the hole by using the clamping disk 400, and the motor shaft 210 is formed in the shaft hole formed through the bearing bush 300 installed in this way. ) Is installed through.

As described above, the clamping disk 400 supporting the bearing bush 300 is a plate formed in a circular annular shape in which a shaft hole is formed, as shown in FIGS. 5 and 6. As shown in FIG. 5, the bush support blade 420 is configured to elastically support one end of the bearing bush 300.

The clamping disk 400 configured as described above is inserted into the disk insertion hole 110 formed at one side of the gear housing 100 and the end of the locking blade 430 formed by bending the edge outward is the disk insertion hole ( The motor shaft 210 penetrates through the shaft through blade 410, which is fixed to the inner wall of the 110 and is bent outwardly in the center thereof. In addition, the clamping disk 400 configured as described above has a clamping disk at the time of assembly as the force for supporting the bearing bush 300 by the elastic support blade 420 varies depending on the depth of the disk inserted into the gsk insertion hole 110. There was a lot of difficulty in adjusting the depth at which 400 was pressed.

As the clamping disk 400 is pressed into the disk insertion hole 110, the force supporting the bearing bush 300 is changed, and thus the force supporting the bearing bush 300 is changed. The flow force of the motor shaft 210 supported by the is changed.

As such, the flow force of the motor shaft 210, that is, the force moving in the direction in which the motor shaft 210 is perpendicular to the center direction of the shaft is changed, so that the worm gear and the gear housing 100 formed at the interruption of the motor shaft 210 are changed. The phenomenon in which the coupling force of the gear teeth of the worm wheel installed in the phenomena is changed, and when the worm wheel is forcibly rotated, a self-locking shape is generated in spite of the rotation of the rim wheel.

This self-locking phenomenon is connected to the worm wheel, which means that the means for elevating the window glass can be forcibly operated from the outside, and this can cause the window glass to be forced down from the outside and the vehicle can be stolen. There is.

The present invention has been invented to solve the above problems, and an object of the present invention is to provide a support structure of a bearing bush for supporting a window lift motor shaft, which is easy to assemble by adjusting a flow force of a bearing bush and a simple assembly process.

Furthermore, a plurality of elastic support wings for elastically supporting the bearing bush are formed on the clamping disk for fixing the bearing bush to the gear housing, and the bottom of the clamping disk is installed in close contact with the bottom of the disk fixing hole where the disk is installed. It is an object of the present invention to provide a support structure of a bearing bush for supporting a window lift motor shaft, which enables the clamping disk to always support the bearing bush with a constant force, thereby reducing the change in the flow force of the bearing bush so as to more stably support the motor shaft. .

In addition, the bearing bush for supporting the window lift motor shaft which prevents self-locking caused by the change of the flow force by reducing the change of the flow force even after the deformation or time elapses of the gear housing due to the high or low temperature. To provide a support structure for

The support structure of the bearing bush for supporting the window lift motor shaft according to the present invention for achieving the above object is a motor having a gear housing with a built-in worm wheel, and a motor shaft formed with a dignity gear for rotating the dignity wheel built into the gear housing; And a window lift motor having a bearing bush installed at a portion through which the motor shaft of the gear housing penetrates, the bearing having a bearing bush supporting the motor shaft, wherein the disk insert has a diameter larger than that of the bush insertion hole provided with the bearing bush of the gear housing. Install a clamping disk in the hole, but press-fit the bottom of the clamping disk to the interview in the bottom of the disk insertion hole, and install

The clamping disk is characterized in that the inner circumferential surface end and the outer circumferential end of the circular ring-shaped body is bent in the direction toward the motor to form a locking blade at the outer peripheral surface end, and formed by forming a plurality of elastic support wings cut in the inner peripheral surface end.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a plan view showing a part of a window lift motor having a support structure of a bearing bush for supporting a window lift motor shaft according to the present invention, FIG. 2 is an enlarged view of a portion A of FIG. Fig. 1 is a perspective view showing an example of a clamping disk installed on a support structure of a bearing bush for supporting a window lift motor shaft according to the present invention.

As shown, the support structure of the bearing bush for supporting the window lift motor shaft according to the present invention is formed in the gear housing 100 and the disk insertion hole 110 formed to have a larger diameter than the bush insertion hole in which the bearing bush 300 is installed. The clamping disk (1) is installed in the interior of the clamping disk (1) is installed by pressing the bottom of the interview so that the bottom of the disk insertion hole (110).

The window lift motor having the clamping disk 1 installed as described above is one of the motors that are typically used to lift and lower the window of the vehicle. The gear housing 100 with the built-in worm wheel and the dignity wheel embedded in the gear housing 100 are provided. It includes a motor having a motor shaft 210 is formed with a dignity gear for rotating the bearing, the bearing is installed in a portion through which the motor shaft 210 of the gear housing 100 penetrates to support the motor shaft 210 It is provided with a bush 300, the control means for controlling the rotation of the motor 200, etc. is connected, but the configuration or control means of such a window lift motor is a well-known technique and a detailed description thereof will be omitted.

As shown in FIG. 3, the clamping disk 1 is made of a thin plate body having a circular ring shape, and may be made of a metal having excellent elasticity.

The clamping disk 1 should have a structure for elastically supporting the bearing bush 300 as a means for elastically supporting the bearing bush 300 as described above. (11) is formed.

That is, the inner circumferential inner peripheral surface end and the outer circumferential surface end of the circular annular body 1a were bent in the direction toward the motor 200, and the inner circumferential end was cut in multiple to form an elastic support blade 11.

In addition, the outer edge of the body (1a) is also bent toward the motor 200 to form a locking blade (12).

As shown in FIG. 2, the locking blade 12 is a part that is caught by the inner circumferential surface of the disc insertion hole 110 having a diameter larger than that of the bush insertion hole in which the bearing bush 300 of one side of the gear housing 100 is installed. When the clamping disk 1 is formed larger than the inner diameter of the disk insertion hole 110 and is forcibly pressed into the disk insertion hole 110, the locking blade 12 is caught by the inner wall of the disk insertion hole 110. It is not separated from 110.

In addition, the elastic support wings 11 are formed to be bent from the main body (1a) as shown in Figure 2 is formed to have an inclination with an obtuse angle formed by the main body (1a) arc of the bearing bush 300 Facing the end.

Ends of the elastic support wings 11 are further formed with a bent portion (11a) to be parallel to the outer circumferential surface of the motor shaft 210, the circle in which the ends of the elastic support wings (11) are continuous. Larger than the outer diameter of 210).

As described in detail above, the present invention forms a plurality of elastic support wings for elastically supporting the bearing bush in the clamping disk for fixing the bearing bush to the bush insertion hole formed in the gear housing, and the bottom of the clamping disk By installing the disk to be in close contact with the bottom of the disk fixing hole in which the disk is installed, it is possible to maintain a fixed position where the clamping disk is fixed. Accordingly, the clamping disk always supports the bearing bush with a constant force, thereby reducing the flow force of the bearing bush. There is an effect that the change can be reduced more stably to support the motor shaft.

In addition, even if the deformation or the time of the gear housing due to the high or low temperature elapses, the change in the flow force decreases, thereby preventing the self-locking caused by the change in the flow force.

While the present invention has been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that many various obvious modifications are possible without departing from the scope of the invention from this description. Accordingly, the invention can only be construed limited by the words of the appended claims.

Claims (3)

The gear housing 100 includes a gear housing 100 in which a worm wheel is built, and a motor 200 having a motor shaft 210 for forming a dignity gear for rotating the dignity wheel embedded in the gear housing 100. In the window lift motor provided with a bearing bush 300 for supporting the motor shaft 210 is installed in a portion through which the motor shaft 210 of the, The clamping disk 1 is installed inside the disk insertion hole 110 having a larger diameter than the bushing insertion hole in which the bearing bush 300 of the gear housing 100 is installed, but the bottom of the clamping disk 1 is the disk. Press-fit the bottom of the insertion hole 110 to be installed, The clamping disk 1 is bent in the direction of the inner peripheral surface and the outer peripheral surface end of the circular annular body (1a) toward the motor 200 to form a locking wing 12 at the outer peripheral surface end, a plurality of incisions at the inner peripheral surface end Support structure of the bearing bush for supporting the window lift motor shaft, characterized in that formed by forming the elastic support blade (11). The method of claim 1, The support structure of the bearing bush for supporting a window lift motor shaft, characterized in that the elastic support wings (11) are formed to be inclined toward the center from the main body (1a). The method according to claim 1 or 2, The end of the elastic support blades (11) is a support structure of the bearing bush for supporting the window lift motor shaft, characterized in that the bent portion (11a) is further formed to be parallel to the outer peripheral surface of the motor shaft (210).

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