KR20180035414A - Apparatus for inspecting allophone the door trim and control method thereof - Google Patents

Abstract

Disclosed are a door trim allophone inspecting system, and an inspecting method thereof. The door trim allophone inspecting system according to an embodiment of the present invention includes a vibrator for vibrating a door trim in a vertical direction, a sound camera for measuring BSR noise generated in the door trim when the door trim is vibrated and outputting the measured BSR noise as a BSR noise image, and a control device for vibrating the door trim through the vibrator so that an impact is generated when a vehicle mounting the door trim runs in an uneven area or protrusions and displaying the BSR noise image for the BSR noise generated when the door trim is vibrated, information on a door trim part where the BSR noise is generated, and a type of the BSR noise. Accordingly, the present invention can visually inspect the BSR noise.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a door trim attachment inspection system,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a door trim attachment inspection system and an inspection method thereof, and more particularly, to a door trim attachment inspection system for inspecting a joint occurring in a door trim and an inspection method thereof.

In general, a number of complex mechanisms such as engine and power train are combined inside the vehicle.

In particular, BSR (Buzz, Squeak, Rattle) noise of vehicles has recently been emerging as emotional engineering. Buzz noise that generates a buzzing sound generated by the vibration of a single object, squeak noise that generates a sound of 'shaking' due to contact friction between two objects, and 'squeak' The distance is rattle noise where impact noise is generated. Among them, the BSR noise of the door trim needs to elaborate the mechanism of the product as the main factor causing the vehicle field claim.

Existing door trim BSR noise testing depends on the hearing and experience of the inspector. However, BSR noise of the door trim is limited because it is increasingly demanding the quietness of the vehicle and the factors causing BSR noise are increasing.

On the other hand, as a result of investigating the field claim regarding the BSR noise of the door trim, a large proportion of the BSR noise of the door trim is generated in the unevenness and the BSR noise occurring in the duck traveling.

However, there is not a system that can check the BSR noise that occurs in a door trim when the vehicle is uneven or ducks.

Korean Patent Publication No. 1997-0035304 (published on July 22, 1997) 2007 Research Report of the Korean Academy of Industrial Science and Technology (Research Papers: BSR Test Method for Vehicle Seat and Operating Durability)

Embodiments of the present invention provide a door trim attachment inspection system and a method of inspecting a door trim joint that can visually check joints that may occur in a door trim when the vehicle is running unevenly or in a double glance.

According to an aspect of the present invention, there is provided a door locking device comprising: a vibrator for vibrating a door trim in a vertical direction; A sound camera for measuring BSR noise generated in the door trim when the door is trimmed and outputting BSR noise images; And a BSR noise image for BSR noise generated when the door trim is excited by the door trim so as to generate an impact when the vehicle equipped with the door trim is running on the ruggedness or the barrier, A door trim bonding inspection system including a door trim area information on which BSR noise has occurred and a control device for indicating the BSR noise type can be provided.

In addition, the control device may further include a BSR noise image for BSR noise measured by the sound camera during the duration of the door trim, door trim information for a BSR noise generated by the inspector, BSR noise type And generating a door trim BSR information screen including information on the door trim BSR information screen and displaying the generated door trim BSR information screen.

Further, the controller controls the door trim, senses the vertical acceleration of the excavated door trim, excites the door trim until the sensed acceleration reaches a predetermined value, The BSR noise image for the BSR noise generated in the door trim can be obtained using the sound camera when the predetermined value is reached.

Further, the control device can apply the door trim to the door trim by applying a margin of 1.5 times or more higher than the value corresponding to the impact when the vehicle on which the door trim is mounted runs along the ruggedness or the barrier.

According to another aspect of the present invention, there is provided a door trim having a door trim using a vibrator so as to generate an impact when a vehicle equipped with the door trim is running on an uneven surface or a barrier, Wherein the controller receives the BSR noise image for the BSR noise of the door trim and receives the BSR noise information from the door trim of the door trim and the BSR noise information at the corresponding portion of the door trim, A door trim BSR information screen including the obtained BSR noise image, the inputted door trim area information and the BSR noise type information is generated, and a door trim attachment inspection method for displaying the generated door trim BSR information screen is provided .

The embodiment of the present invention can reduce the cost associated with the correction of the mold due to the field claim because the BSR noise generated in the door trim when the vehicle is running unevenly or in the dusk can be checked in advance and minimized before the product is released.

Embodiments of the present invention can visually inspect the BSR noise generated in each part of the door trim when the vehicle is running unevenly or in a dusk.

1 is a configuration diagram of a door trim bonding inspection system according to an embodiment of the present invention.
2 is a control block diagram of a control apparatus in a door trim joint inspection system according to an embodiment of the present invention.
3 is a view for explaining the visualization of noise generated when a door trim is applied using a sound camera in a door trim joining inspection system according to an embodiment of the present invention.
4 is a view for explaining a door trim BSR information screen in a door trim attachment inspection system according to an embodiment of the present invention.
FIG. 5 is a control flowchart for a door trim joint inspection method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments to be described below are provided by way of example so that those skilled in the art can fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In the drawings, the width, length, thickness, etc. of components are exaggerated for the sake of convenience. Like reference numerals designate like elements throughout the specification.

1 is a configuration diagram of a door trim bonding inspection system according to an embodiment of the present invention.

Referring to FIG. 1, a door trim bonding inspection system may include a control device 100, a vibrator 200, and a sound camera 300.

The exciter 200 allows the door trim 10 to be mounted and equipped with the door trim 10 mounted thereon. For example, the vibrator 200 excites the door trim 10 in the vertical direction as indicated by the arrow.

The sound camera 300 is a camera having a plurality of microphones attached thereto.

The sound camera 300 visually expresses the noise generated in the door trim 10 using a camera technique of taking a sound.

The sound camera 300 measures BSR noise data generated at each portion of the door trim 10, and outputs the measured BSR noise data in the form of a BSR noise image (see FIG. 3). The sound camera 300 transmits the BSR noise image information including the measured BSR noise data to the control apparatus 100. [

The sound camera 300 can visually indicate in what degree the decibel (dB) the noise source has in the door trim 10.

The control device 100 is connected to the vibrator 200 and the sound camera 300 via a network.

FIG. 2 is a control block diagram of a control apparatus in a door trim joining inspection system according to an embodiment of the present invention. FIG. 3 is a view showing a door trim joining inspection system using a sound camera in a door trim joining inspection system according to an embodiment of the present invention. FIG. 4 is a view for explaining a door trim BSR information screen in a door trim bonding inspection system according to an embodiment of the present invention. Referring to FIG.

2 to 4, the control device 100 may include a control unit 110, an input unit 120, an acceleration level sensing unit 130, a screen generation unit 140, and a display unit 150.

The input unit 120 receives a command from the inspector. The input unit 120 may detect BSR noise generated when the BSR noise is generated when the BSR noise is detected by the inspector, And transmits the received information to the control unit 110. [0033]

The acceleration sensing portion 130 senses the vertical acceleration of the door trim 10 and senses the vertical acceleration of the door trim 10 excited by the exciter 200.

The screen generating unit 140 generates a door trim BSR information screen according to a control signal of the controller 110. [ The screen generating unit 140 generates the BSR noise image information based on the BSR noise image information received from the sound camera 300 and the BSR noise type information and the door trim portion information generated by the BSR noise input by the inspector through the input unit 120, BSR noise image and BSR noise type (Buzz, Squeak, Rattle) are displayed on the BSR noise region on the image (see FIG. 4).

The display unit 150 displays the door trim BSR information screen generated by the screen generator 140 according to the control signal of the controller 110. [

The controller 110 causes the door trim 10 to be lifted using the shaker 200 so that the vehicle can provide a corresponding impact to the door trim when the vehicle is running unevenly or in the course of a double gently running.

The control unit 110 uses the exciter 200 to excite the door trim 10 in the up and down direction until the acceleration value sensed through the acceleration map sensing unit 130 reaches a preset value. At this time, the predetermined value is a value obtained by applying a predetermined margin to the impact corresponding to the unevenness or the running of the dirt in the vehicle. For example, the predetermined value is an acceleration value corresponding to an impact that is generated when the vehicle is subjected to 1.5 times or more amplification of the corresponding shock at the time of traveling on a block road, such as ruggedness or roughness. Experimental results show that when the amplification is 1.5 times or more, BSR noise generation is prominent and BSR ultrasonography is performed efficiently.

The controller 110 generates a door trim BSR information screen using the screen generator 140. The controller 110 controls the BSR noise image information received from the sound camera 300 and the BSR noise type information using the door trim area information and the BSR noise type information generated by the inspector through the input unit 120, Creates a BSR screen with a door trim showing the BSR noise image and the BSR noise type at the noise area.

The control unit 110 displays the door trim BSR screen generated by the screen generating unit 140 through the display unit 150. Accordingly, the inspector can check the area where the BSR noise has occurred, the noise level of the area, and the BSR noise type on the door trim image screen.

FIG. 5 is a control flowchart for a door trim joint inspection method according to an embodiment of the present invention.

Referring to FIG. 5, first, the controller 100 operates the vibrator 200 in the up and down direction at the time of the BSR noise test, which is generated when the vehicle runs on the unevenness or the duties of the vehicle. Accordingly, the door trim 10 mounted on the vibrator is excited in the vertical direction to provide the same environment as when the vehicle runs on the ruggedness or the barrier.

The controller 100 vibrates the door trim 10 in the vertical direction using the exciter 200 and senses the acceleration of the door trim 10 in the vertical direction through the acceleration sensing unit 130 in operation 402.

The controller 100 determines whether the acceleration value sensed through the acceleration sensitivity sensing unit 130 reaches a preset value (404).

If the detected acceleration value does not reach the predetermined value as a result of the determination in the operation mode 404, the operation mode is moved to the operation mode 400 to perform the following operation mode.

On the other hand, when the sensed acceleration value reaches a predetermined value as a result of the determination in the operation mode 404, the controller 100 inputs BSR type information for each site where noise is generated in the door trim 10 from the inspector through the input unit 120 (406).

The controller 100 activates the sound camera 300 while having the door trim 10 through the exciter 200 to measure the BSR noise generated in the door trim 10 in an image form 408. [ (See FIG. 3).

Then, the controller 100 generates a door trim BSR information screen using the screen generator 140 (410). As shown in FIG. 4, the door trim BSR information screen includes BSR noise image information received from the sound camera 300, door trim area information input by the inspector, and BSR noise type information.

After generating the door trim BSR information screen, the controller 100 displays the door trim BSR information screen generated through the display unit 150 (412). The inspector can check what kind of BSR noise the BSR noise has generated on the door trim image screen, at a certain degree of noise level. Inspectors can then take the necessary action based on this BSR information screen, minimizing door trim claims prior to product launch and reducing costs associated with mold modification due to field claims.

100: control device 110: control unit
120: Input unit 130: Acceleration /
140: screen generating unit 150:
200: Shaker 300: Sound camera

Claims (5)

A vibrator for vibrating the door trim in the vertical direction;
A sound camera for measuring BSR noise generated in the door trim when the door is trimmed and outputting BSR noise images; And
The BSR noise image of the BSR noise generated when the door trim is excited by the door trim and the BSR noise image of the BSR noise generated by the door trim are transmitted to the BSR A door trim attachment inspection system comprising a door trim area information where noise is generated and a control device for indicating the type of BSR noise. The method according to claim 1,
Wherein the control unit controls the BSR noise image of the BSR noise measured by the sound camera, the door trim area information of the BSR noise generated by the inspector, and the BSR noise type information of the corresponding area during the door trim, And generating a door trim BSR information screen including the generated door trim BSR information screen, and displaying the generated door trim BSR information screen. The method according to claim 1,
Wherein the controller implements the door trim and senses the upward and downward acceleration of the excavated door trim and makes the door trim to be tilted until the sensed acceleration reaches a predetermined value, And acquires a BSR noise image of BSR noise generated in the door trim using the sound camera when the set value is reached. The method according to claim 1,
Wherein the control unit applies a high margin of 1.5 times or more to a value corresponding to an impact when the vehicle equipped with the door trim travels along the ruggedness or the barrier so as to impart the door trim to the door trim attachment inspection system. A door trim is provided by using a vibrating machine to generate a shock when the vehicle equipped with the door trim travels along the ruggedness or the barrier,
A BSR noise image for the BSR noise of the door trim is obtained using the sound camera when the door trim is excited,
The door trim part information and the BSR noise type information at the corresponding part are received from the inspector when the door trim is excited,
Generating a door trim BSR information screen including the obtained BSR noise image, the inputted door trim area information and the BSR noise type information,
And displaying the generated door trim BSR information screen.

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