KR100310971B1 - method for testing a wire harness and system for performming the same - Google Patents

Abstract

Disclosed are a wire harness test method and a system for conducting the same, as well as conducting a test of a wire harness, and detecting a good quality by detecting a voltage drop of the wire harness. The present invention comprises the steps of contacting the wire harness to each holder and initializing the computer; Applying a constant power to each wire harness in contact with the holder to perform a conduction test, and outputting the result of the conducted conduction test through a computer; Performing a voltage drop test by applying a constant power to the wire harness that has been determined to be good in the continuity test, and outputting the result of the voltage drop test through a computer; And judging whether the output voltage drop value is within the set range, and determining the wire harness having the voltage drop value within the set range as good quality. Before shipment of the wire harness, conduction test and voltage drop can be carried out to accurately know whether the wire harness is in good condition.

Description

Method for testing a wire harness and system for performming the same

The present invention relates to a wire harness test method and a system for performing the same, and in particular, to a wire harness test method for checking the quality of the wire harness by detecting a voltage drop of the wire harness as well as a conduction test of the wire harness, and a system for performing the same. It is about.

In general, a wire harness is a device in which a plurality of wires are bound together and a contact terminal is formed at both ends of the bound wire. have. In addition, the frequency of use of wire harness is gradually increasing in the trend of increasing the attachment of various electronic devices in order to improve the convenience of the current cars.

Such a wire harness has a plurality of wires forming a module, so when one of the wires is broken, it is difficult to find and repair the broken wire. If a bad wire harness is applied to the car, problems such as dismantling the car may occur. Therefore, since wire harnesses are virtually impossible to repair after shipment, pre-shipment inspections for difficult wire harnesses are difficult.

Pre-shipment inspection of the wire harness includes a method of inspecting the conduction of the harness by passing an electric current through the wire. The conduction inspection of the wire harness secures the holder to the working plate, and checks both ends of the fixed wire harness. The current is applied to check the conduction of each line to check whether the wire harness is defective.

The conduction inspection of the wire harness can be determined that the current flows well even when the internal wires of the wire harness are partially disconnected. If a wire harness in which some wires are disconnected passes the continuity test and is installed in the car, problems such as damage due to overload and malfunction of each device may occur. Because of this, there was a problem that the conduction inspection alone could not accurately find some disconnection of the internal wire of the wire harness and uncompressed terminal.

The present invention is to solve the above problems, by performing a conduction test of the wire harness to check the short circuit and disconnection, and to check the good quality by the voltage drop of the wire harness to check the accuracy of the wire harness before shipment It is an object of the present invention to provide a wire harness test method and a system for performing the same.

1 is a block diagram showing the structure of a wire harness test apparatus according to the present invention.

2 is a circuit diagram for explaining the configuration of the wire harness test apparatus according to the present invention.

3 is a flowchart illustrating the operation of the wire harness test method according to the present invention.

<Description of the symbols in the main part of the drawing>

100: computer 102: wire harness

106: resistance 200: first interface device

300: second interface device 302: bus line

400: relay control circuit 402: connection terminal

500: relay device 600: holder

700: DVM 800: Power Supply

Q1-QN: Transistor D1-DN: Diode

RY1-RYN: Relay

The present invention for performing such an object,

Contacting the wire harness to each holder and initializing the computer;

Applying a constant power to each wire harness in contact with the holder to perform a conduction test, and outputting the result of the conducted conduction test through a computer;

Performing a voltage drop test by applying a constant power to the wire harness that has been determined to be good in the continuity test, and outputting the result of the voltage drop test through a computer; And,

Judging whether the output voltage drop value is within a set range, and determining a good wire harness having a voltage drop value within the set range.

Before shipment of the wire harness, conduction test and voltage drop can be carried out to accurately know whether the wire harness is in good condition.

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

1 is a block diagram showing the structure of a wire harness test apparatus according to the present invention, FIG. 2 is a circuit diagram for explaining the configuration of the wire harness test apparatus according to the present invention, and FIG. Flow chart for explaining the operation of the wire harness test method according to.

1 and 2, the wire harness inspection system according to the present invention, the first interface device for transmitting and receiving signals to the output side of the computer 100 consisting of a graphical user interface (GUI) for inspection ( 200 is connected. The first interface device 200 applies a specific signal to the computer so that the user can easily see the result of the conduction and voltage drop test of the wire harness. The first interface device 200 is connected to the second interface device 300 through a bus line 302. The second interface device 300 outputs a drive signal for conducting the wire harness 102, and applies an output signal according to the conduction test result to the first interface device 200 through the bus line 302.

The second interface device 300 is connected to the relay control circuit 400 through the connection port 402. The relay control circuit 400 receives a control signal through the connection port 104 to control the operation of the relay device 500. As shown in FIG. 2, the relay control circuit 400 may be configured to stabilize the output of the transistors Q1-QN and Q1-QN that are operated by receiving a driving signal through the connection port 104. It consists of a diode D1-DN.

The relay device 500 is composed of a plurality of two-switch relays, and the ON terminal of each relay RY1-RYN is connected to a holder 600 which is in electrical contact with the wire harness 102. In addition, the OFF terminal of each relay (RY1-RYN) is connected to the input side of the first interface device 200 through a digital multi meter (hereinafter referred to as DVM) 700, and each relay (RY1-RYN). ) ON and OFF terminal output terminal is connected to the holder 600 and the resistor 106 is configured to be connected to the COM terminal output terminal. The power supply 800 is connected between the relay device 500 and the DVM 700.

The detailed operation of the wire harness test apparatus according to the present invention configured as described above will be described with reference to FIG. 3.

First, the user contacts the wire harness 102 to be tested to the holder 600 formed with a plurality of contact terminals, initializes the computer 100, and then selects a mode suitable for the wire harness 102 to be tested. Then, the system is operated (steps S101-S102). The computer 100 outputs a driving signal through the first interface device 200. The driving signal is applied to the second interface device 300 through the bus line 302, and the second interface device 300 outputs the driving signal to the relay control circuit 400 through the connection port 402.

The transistors Q1-QN of the relay control circuit 400 are turned on by the driving signal output from the second interface device 300, and the driving signals are stabilized through the diodes D1 -DN to provide the relay device 500. It is applied to the constituent relays RY1-RYN. Accordingly, when the ON terminals of the relays RY1-RYN are connected, the driving signal output from the computer 100 is applied to the wire harness 102 through the holder 600. (Step S103)

When the wire harness 102 is in a normal state, a driving signal applied to one end of the wire harness 102 is output to the other end of the wire harness 102 so that a specific value of the second interface device 300 is connected through the connection port 402. Is entered. The conduction test result input to the second interface device 300 is applied to the computer 100 through the first interface device 200. When the conduction test result is input to the computer 100, the conduction test result of the wire harness 102 in contact with each holder 600 is output by the pre-programmed form. Therefore, the user can easily know through the computer 100 even the OPEN state, the SHORT state of the wire harness 102 in contact with the holder 600, and the state in which the wire harness 102 which is not suitable for testing is in contact. -S110)

When the conduction test of the wire harness 102 is completed, the computer 100 outputs a control signal to connect the relays RY1-RYN to the OFF terminal. When the relays RY1-RYN are connected to the OFF terminal, a constant power of the power supply 800 is applied to the wire harness 102 through the holder 600 through the OFF terminal of the relay RY1-RYN to check the voltage drop. (Step S111) That is, a resistor 106 having a specific value is common to the COM terminal of each relay RY1-RYN connected to the holder 600 to which each wire harness 102 is in contact. Contact, the power applied from the power supply 800 through the OFF terminal of the relay (RY1-RYN) is passed through the wire harness 102 and the resistor 106 in contact with each holder 600, the resistor 106 Measured by the digital multimeters 700 connected to both ends of the wire, and input to the computer 100 through the first interface device 200, the wire harness 102 contacting the computer 100 to each holder 600. Calculates the voltage drop and outputs it according to the pre-programmed form. The user visually checks the voltage drop value of each wire harness 102 in contact with the holder 600 through the computer 100, and finally determines only the wire harness 102 within the range where the voltage drop value is set. (Steps S112-S114)

Therefore, whether the good quality of the wire harness 102, which could not be found only by the conduction test, can be accurately known through the voltage drop test, thereby improving the reliability of the wire harness 102.

As described above, the present invention is configured to perform a conduction test and a voltage drop test at the same time as the shipment test of the wire harness, so that it is possible to accurately know whether the wire harness is good or not, thereby improving reliability of the shipment test.

Although the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited thereto and may be improved or modified by those skilled in the art within the scope of the technical idea of the present invention.

Claims (5)

Iii) contacting the wire harness 102 to each holder 600 and initializing the computer 100; Ii) performing a conduction test by applying a constant power to each wire harness 102 in contact with the holder 600 after the step, and outputting the result of the conduction test through a computer; Iii) performing a voltage drop test by applying a constant power to the wire harness 102 which has been determined to be good in the conduction test in the step, and outputting the result of the voltage drop test through a computer; And, I) determining whether the output voltage drop value after the step is within a set range, and determining a good quality wire harness (102) having the voltage drop value within the set range. The method of claim 1, wherein the step ii outputs a drive signal from the computer 100 through the first interface device 200 to connect each relay RY1-RYN of the relay device 500 to the ON terminal. Applying a driving signal output from the computer (100) to one end of a wire harness (102); The driving signal passed through the wire harness 102 is input through the second interface device 300 and the first interface device 200 through the connection port 402, and the computer 100 is provided through the first interface device 200. ), And outputting the conduction test results by a programmed form. The method of claim 1, wherein the step (b) outputs a driving signal from the computer 100 through the first interface device 200 to connect each relay RY1-RYN of the relay device 500 to an OFF terminal. Applying power output from the supply device 800 to the wire harness 102; The voltage drop of the current applied to the wire harness 102 and the resistor 106 is measured by the digital multimeter 700 and input to the computer 100 through the first interface device 200 to program the test result. Wire harness test method comprising the step of outputting by the form. An inspection computer 100 which controls the conduction inspection and the voltage drop inspection of the wire harness 102 in contact with the holder 600 and receives the test results and outputs them in a pre-programmed form; A first interface device (200) connected to an output side of the inspection computer (100) for transmitting and receiving a signal for inspection of the computer (100) and the wire harness (102); A second interface device (300) connected to the first interface device (200) through a bus line (302) and outputting a driving signal for inspecting the wire harness (102); Operation of the relay device 500 connected to the second interface device 300 and the connection port 402 is composed of a plurality of two-switch relay (RY1-RYN), the resistance 106 is connected to one side of the terminal Relay control circuit 400 for controlling the; Digital multimeter for measuring the voltage drop of the wire harness 102 generated by a specific power applied to the wire harness 102 in the power supply device 800 connected to one terminal of the relay device 500 700; And Wire harness test system including a holder (600) connected to one side of the output terminal of the relay device 500 in contact with the wire harness (102). 5. The wire harness test system of claim 4, wherein the inspection computer (100) comprises a graphical user interface (GUI).