KR20230127055A - Apparatus and method for inspecting of junction block - Google Patents

Abstract

The present invention supplies power to the relay provided in the junction block through a power supply device that supplies power to the relay provided in the junction block and the power supply device, and determines whether or not an operation sound is generated from the relay according to the supply of power. and a controller for determining whether an abnormality has occurred in a coil provided in the relay based on a result of determining whether an operation sound is generated.

Description

Junction block inspection device and method {APPARATUS AND METHOD FOR INSPECTING OF JUNCTION BLOCK}

The present invention relates to an apparatus and method for inspecting a junction block, and more particularly, to an apparatus and method for inspecting a junction block capable of inspecting a relay applied to a junction block without separating the junction block from a vehicle.

All electrical devices of a vehicle are connected to an electronic control unit (ECU) by wires, and at this time, a junction block is used as an intermediate medium connecting the wires and the ECU to each other. The junction block consists of a bus bar, a fuse, a relay, and a unit, and serves to distribute power from the battery and generator to the electronic system of the entire vehicle. 1 is an embodiment of a drive unit of a vehicle to which a junction block is applied.

Such a junction block needs to be inspected periodically or non-periodically. Typically, as shown in FIG. 2, the junction block is inspected by removing the cover of the junction block, removing each part provided inside the junction block, and then checking whether there is an abnormality for each part or each circuit. It is done. However, in the case of such a conventional junction block checking method, there is a problem that not only cannot be directly applied in the field, but also requires a considerable amount of time to check.

The background art of the present invention is disclosed in 'junction box inspection device' of Korean Patent Registration No. 10-0731295 (2007.06.15.).

The present invention has been devised to solve the above problems, and an object according to an aspect of the present invention is to provide a junction block inspection device and method capable of inspecting a relay applied to a junction block without separating the junction block from a vehicle. is to do

An apparatus for inspecting a junction block according to an aspect of the present invention includes a power supply unit supplying power to a relay provided in a junction block; and supplying power to the relay provided in the junction block through the power supply device, determining whether an operation sound is generated from the relay according to the supply of the power, and determining whether the operation sound is generated or not. It is characterized in that it includes; based on the controller for determining whether or not an abnormality has occurred in the coil provided in the relay.

In the present invention, a memory storing the reference operation sound of the relay; and a sound sensor for measuring sound, wherein the controller compares the sound measured through the sound sensor with a reference operating sound stored in the memory to determine whether the relay generates an operating sound. to be

In the present invention, the controller is characterized in that when the operation sound is not generated from the relay, it is determined that an abnormality has occurred in the coil.

In the present invention, the controller determines whether the relay is energized when the operating sound is generated, and determines whether an abnormality has occurred in the contact spring provided in the relay based on a result of determining whether the relay is energized. It is characterized by doing.

In the present invention, a multimeter for measuring current is further included, and the controller determines whether the relay is energized through the multimeter.

In the present invention, it is characterized in that the controller determines that an abnormality has occurred in the contact spring when the relay is not energized.

In the present invention, the controller, when the relay is energized, stops supplying the power, re-determines whether the relay is energized, and based on the result of re-determining whether the relay is energized, there is an error in the contact of the relay. It is characterized by determining whether this has occurred.

In the present invention, the controller is characterized in that when the relay is energized, it is determined that an abnormality has occurred in the contact point.

A method for inspecting a junction block according to an aspect of the present invention includes supplying, by a controller, power to a relay provided in a junction block through a power supply; determining, by the controller, whether an operation sound is generated from the relay according to the supply of the power; and determining, by the controller, whether an abnormality has occurred in a coil provided in the relay based on a result of determining whether the operation sound is generated.

In the step of determining whether the operation sound is generated in the present invention, the controller compares the sound measured through the sound sensor with the reference operation sound stored in the memory to determine whether the operation sound is generated in the relay characterized by

In the step of determining whether an abnormality has occurred in the coil in the present invention, the controller determines that an abnormality has occurred in the coil when no operation sound is generated from the relay.

In the present invention, the controller determining whether the relay is energized when the operating sound is generated; and determining, by the controller, whether an abnormality has occurred in the contact spring provided in the relay based on a result of determining whether the relay is energized. It is characterized in that it further comprises.

In the present invention, in the step of determining whether the relay is energized, the controller determines whether the relay is energized through a multimeter.

In the step of determining whether an abnormality has occurred in the contact spring in the present invention, the controller determines that an abnormality has occurred in the contact spring when the relay is not energized.

Step of the controller in the present invention, stopping the supply of the power when the relay is energized; determining, by the controller, whether the relay is energized again; and determining, by the controller, whether an abnormality has occurred in a contact point of the relay based on a result of re-determining whether the relay is energized.

In the step of determining whether an abnormality has occurred in the contact point in the present invention, the controller determines that an abnormality has occurred in the contact point when the relay is energized.

According to one aspect of the present invention, a relay applied to a junction block may be inspected without separating the junction block from the vehicle.

In addition, according to one aspect of the present invention, it is possible to check whether or not an abnormality has occurred in a coil provided in a relay applied to a junction block.

In addition, according to one aspect of the present invention, it is possible to check whether or not an abnormality has occurred in a contact spring provided in a relay applied to a junction block.

In addition, according to an aspect of the present invention, it is possible to check whether or not an abnormality has occurred in a contact point of a relay applied to a junction block.

1 and 2 are exemplary diagrams for explaining a junction block.
3 is a block diagram illustrating an apparatus for checking a junction block according to an embodiment of the present invention.
4 is an exemplary diagram for explaining a junction block coupled to a vehicle.
5 is an exemplary diagram for explaining a relay applied to a junction block.
6 is a flowchart illustrating a method for checking a junction block according to an embodiment of the present invention.

Hereinafter, an apparatus and method for checking a junction block according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings. In this process, the thickness of lines or the size of components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of a user or operator. Therefore, definitions of these terms will have to be made based on the content throughout this specification.

3 is a block configuration diagram for explaining a junction block inspection apparatus according to an embodiment of the present invention, FIG. 4 is an exemplary view for explaining a junction block coupled to a vehicle, and FIG. 5 is a relay applied to the junction block. It is an example diagram for explaining.

Referring to FIG. 3 , the junction block inspection device according to an embodiment of the present invention may include a power supply 100, a sound sensor 200, a memory 300, a multimeter 400, and a controller 500. can

The power supply device 100 may supply power (ie, a control signal) to the relay 20 provided in the junction block 10 . The power supply device 100 may be connected to the input terminal 11 provided in the junction block 10 by a user, and when connected to the input terminal 11 of the junction block 10, under the control of a controller 500 to be described later. Power may be supplied to the junction block 10 . Referring to FIG. 4 , an input terminal 11 for receiving power may be provided at one side of the junction block 10 . When the power supply device 100 is connected to the input terminal 11, power is applied to the junction block 10 even when the ignition of the vehicle is turned off, so that the relay 20 provided in the junction block 10 can be operated.

The sound sensor 200 may measure sound. The sound sensor 200 may be disposed around the junction block 10 by a user, measure sound generated from the junction block 10, and output the measured sound to the controller 500.

Various data necessary for the controller 500 to inspect the relay 20 provided in the junction block 10 may be previously stored in the memory 300 . According to one embodiment, the reference operation sound of the relay 20 may be stored in the memory 300 . The reference operating sound may be an operating sound generated by the relay 20 in a normal state. In addition, the memory 300 may store various data calculated in the process of the controller 500 inspecting the relay 20 provided in the junction block 10 .

Multimeter 400 may measure current and/or voltage. The multimeter 400 can be connected to an arbitrary point of the junction block 10 by a user, measures the current and/or voltage flowing at the corresponding point, and outputs the measured current and/or voltage to the controller 500. can do.

The controller 500 supplies power to the relay 20 provided in the junction block 10 through the power supply device 100, determines whether an operation sound is generated from the relay 20 according to the supply of power, and , It is possible to determine whether an abnormality has occurred in the coil provided in the relay 20 based on the result of determining whether an operation sound is generated. That is, the controller 500 checks whether an operating sound is generated from the relay 20 when power is applied to the relay 20 provided in the junction block 10 through the power supply device 100, so that the junction block 10 It is possible to determine whether or not an abnormality has occurred in the coil of the relay 20 provided in ).

According to an embodiment, the controller 500 compares the sound measured by the sound sensor 200 with the reference operating sound stored in the memory 300 to determine whether an operating sound is generated from the relay 20. . The reference operation sound, which is the operation sound generated by the relay 20 in a normal state, may be stored in the memory 300 in advance, and the controller 500 uses the sound sensor 200 as a reference within a preset time from the time of power supply. Whether or not an operation sound is generated from the relay 20 according to the supply of power can be determined through whether a sound matching the operation sound is measured.

According to an embodiment, the controller 500 determines that an error has occurred in the coil 21 provided in the relay 20 when no operation sound is generated from the relay 20 even though power is supplied to the relay 20. can The controller 500 determines that an abnormality has occurred in the coil 21 provided in the relay 20 when the sound matching the reference operating sound is not measured through the sound sensor 200 within a predetermined time from the time of power supply. can

Referring to FIG. 5 , when current is applied to the normally operating relay 20, the fixed core 23 is magnetized by the magnetic field formed around the coil 21, and the magnetic force generated as the fixed core 23 turns itself around. As a result, the movable core 22 rises while compressing the return spring 24 . At the same time, the shaft 25 coupled to the movable core 22 rises while compressing the contact spring 28 to push up the movable contact 26, and the gap between the pushed movable contact 26 and the fixed contact 27 rises. Relay 20 is energized as contact occurs. At this time, as the movable core 22 and the fixed core 23 collide, a sound (ie, operating sound) is generated. However, when an abnormality occurs in the coil 21, current does not flow through the coil 21, so that a collision between the movable core 22 and the fixed core 23 does not occur, and the movable core 22 and the fixed core 23 do not As there is no collision between them, there is also no sound caused by the collision.

The present invention has been conceived from the foregoing facts, and whether an abnormality has occurred in the coil 21 provided in the relay 20 by checking whether an operating sound is generated from the relay 20 when power is applied to the relay 20. can judge

On the other hand, when an operation sound is generated, the controller 500 determines whether the relay 20 is energized, and based on the result of determining whether the relay 20 is energized, the controller 500 applies a voltage to the contact spring 28 provided in the relay 20. It is possible to determine whether an abnormality has occurred.

According to an embodiment, the controller 500 may determine whether the relay 20 is energized through the multimeter 400 . Referring to FIG. 4 , a high voltage power supply terminal 40 may be provided between the junction block 10 and the inverter 30 connecting the junction block 10 and the motor, and the user may use the high voltage power supply terminal 40 After removing the cover provided on the upper part, the multimeter 400 may be connected to the anode and cathode provided in the high voltage power terminal 40. The controller 500 may determine whether the relay 20 is energized based on the current value and/or the voltage value of the high voltage power terminal 40 measured by the multimeter 400 .

According to one embodiment, when an operating sound is generated from the relay 20 but the relay 20 is not energized, the controller 500 determines that an abnormality has occurred in the voltage spring 28 provided in the relay 20. can

Referring to FIG. 5 , in the case of the normally operating relay 20 , the movable contact 26 supported by the contact spring 28 contacts the fixed contact 27 while current is supplied to the relay 20 . However, when melting occurs in the contact spring 28 or its periphery due to external overheating, etc., and the function of the contact spring 28 is limited, even if the shaft 25 rises by supplying current to the relay 20, the movable contact ( 26) is not sufficiently supported by the contact spring 28, so that contact between the movable contact 26 and the stationary contact 27 is not made, and thus the relay 20 is not energized.

The present invention has been conceived from the foregoing fact, by checking whether the relay 20 is energized in a situation where the coil 21 of the relay 20 is normally operating, there is an abnormality in the contact spring 28 provided in the relay 20. Whether or not this has occurred can be determined.

Meanwhile, when the relay 20 is energized, the controller 500 stops supplying power, re-determines whether the relay 20 is energized, and based on the result of re-determining whether the relay 20 is energized, the relay 500 It is possible to determine whether an abnormality has occurred in the contact of (20).

According to an embodiment, the controller 500 may determine that an error has occurred in a contact point of the relay 20 when the relay 20 is energized even after the supply of power is stopped.

Referring to FIG. 5 , in the case of the normally operating relay 20 , when the supply of power is stopped, the movable core 22 descends as the magnetic field formed around the coil 21 disappears. At the same time, as the shaft 25 coupled to the movable core 22 descends and pushes the movable contact 26 down, the movable contact 26 is separated from the fixed contact 27 and the relay 20 is turned off. However, when fusion between the movable contact 26 and the fixed contact 27 occurs due to overcurrent or the like, the movable contact 26 is not separated from the fixed contact 27 even if the supply of power is stopped, and the relay 20 is energized is maintained as

The present invention has been conceived from the foregoing fact, and it is possible to determine whether an abnormality has occurred in a contact point of the relay 20 by checking whether the relay 20 is energized in a situation in which power supply is stopped.

As described above, the present invention can inspect the coil, contact spring, and contact of the relay applied to the junction block using a voltage supply device, a sound sensor, and a multimeter without separating the junction block from the vehicle.

6 is a flowchart illustrating a method for checking a junction block according to an embodiment of the present invention.

Hereinafter, referring to FIG. 6, a junction block inspection method will be described.

First, the controller 500 may supply power to the relay 20 provided in the junction block 10 through the power supply device 100 (S601). At this time, the power supply device 100 may be connected to the input terminal 11 provided in the junction block 10 by the user, and the vehicle mounted on the junction block 10 may be in an engine-off state.

Subsequently, the controller 500 may determine whether an operating sound is generated from the relay 20 according to the supply of power (S603). According to one embodiment, the controller 500 may determine whether an operating sound is generated through the sound sensor 200 . According to another embodiment, the user may directly check the operation sound and input a signal about whether the operation sound is generated to the controller 500 through a separate input device, and the controller 500 responds to the signal input from the user. Based on this, it may be determined whether an operating sound is generated.

If no operating sound is generated from the relay 20 even though power is supplied, the controller 500 may determine that an error has occurred in the coil 21 provided in the relay 20 (S605).

On the other hand, when an operating sound is generated from the relay 20 according to the supply of power, the controller 500 may determine whether the relay 20 is energized (S607). According to an embodiment, the controller 500 may determine whether the relay 20 is energized through the multimeter 400 . The multimeter 400 may be connected to the high voltage power terminal 40 provided between the inverter and the junction block 10 by a user.

When the relay 20 is not energized, the controller 500 may determine that an abnormality has occurred in the voltage spring 28 provided in the relay 20 (S609).

On the other hand, when the relay 20 is energized, the controller 500 may stop supplying power (S611) and determine whether the relay 20 is energized again (S613). According to an embodiment, the controller 500 may re-determine whether the relay 20 is energized through the multimeter 400.

When the relay 20 is energized, the controller 500 may determine that an abnormality has occurred in the contact of the relay 20 (S615).

On the other hand, when the relay 20 is not energized, the controller 500 may determine that the relay 20 is normal.

As described above, the junction block inspection apparatus and method according to an embodiment of the present invention do not separate the junction block from the vehicle, and use a power supply, a sound sensor, and a multimeter to apply a coil of a relay applied to the junction block, Contact springs and contacts can be inspected.

Implementations described herein may be embodied in, for example, a method or process, an apparatus, a software program, a data stream, or a signal. Even if discussed only in the context of a single form of implementation (eg, discussed only as a method), the implementation of features discussed may also be implemented in other forms (eg, an apparatus or program). The device may be implemented in suitable hardware, software and firmware. The method may be implemented in an apparatus such as a processor, which is generally referred to as a processing device including, for example, a computer, microprocessor, integrated circuit or programmable logic device or the like. Processors also include communication devices such as computers, cell phones, personal digital assistants ("PDAs") and other devices that facilitate communication of information between end-users.

Although the present invention has been described with reference to the embodiments shown in the drawings, it should be noted that this is only exemplary and various modifications and equivalent other embodiments are possible from those skilled in the art to which the technology pertains. will understand Therefore, the true technical protection scope of the present invention should be defined by the claims below.

10: junction block 11: input
20: relay 21: coil
22: movable core 23: fixed core
24: return spring 25: shaft
26: movable contact 27: fixed contact
28: contact spring 30: inverter
40: high voltage power stage 100: power supply
200: sound sensor 300: memory
400: multimeter 500: controller

Claims (16)

A power supply device supplying power to a relay provided in the junction block; and
Power is supplied to the relay provided in the junction block through the power supply device, and it is determined whether an operation sound is generated from the relay according to the power supply, and based on a result of determining whether the operation sound is generated. a controller to determine whether an error has occurred in the coil provided in the relay;
Junction block inspection device comprising a.
According to claim 1,
a memory storing a reference operation sound of the relay; and
A sound sensor for measuring sound; further comprising,
Wherein the controller compares the sound measured through the sound sensor with a reference operating sound stored in the memory to determine whether an operating sound is generated in the relay.
According to claim 1,
Wherein the controller determines that an abnormality has occurred in the coil when no operation sound is generated from the relay.
According to claim 1,
The controller determines whether the relay is energized when the operating sound is generated, and determines whether an abnormality has occurred in the contact spring provided in the relay based on a result of determining whether the relay is energized. Junction block inspection device that does.
According to claim 4,
A multimeter for measuring current; further comprising,
Wherein the controller determines whether the relay is energized through the multimeter.
According to claim 4,
Wherein the controller determines that an abnormality has occurred in the contact spring when the relay is not energized.
According to claim 4,
The controller, when the relay is energized, stops supplying the power, re-determines whether the relay is energized, and determines whether an abnormality has occurred in the contact point of the relay based on a result of re-determining whether the relay is energized. Junction block inspection apparatus, characterized in that for determining.
According to claim 7,
Wherein the controller determines that an abnormality has occurred in the contact when the relay is energized.
supplying, by a controller, power to a relay provided in a junction block through a power supply;
determining, by the controller, whether an operation sound is generated from the relay according to the supply of the power; and
determining, by the controller, whether an abnormality has occurred in a coil provided in the relay based on a result of determining whether the operation sound is generated;
Junction block inspection method comprising a.
According to claim 9,
In the step of determining whether the operation sound is generated, the controller,
A junction block inspection method, characterized in that by comparing the sound measured through the sound sensor with the reference operating sound stored in the memory to determine whether the operating sound is generated in the relay.
According to claim 9,
In the step of determining whether an abnormality has occurred in the coil, the controller,
Junction block inspection method characterized in that it is determined that an abnormality has occurred in the coil when the operation sound is not generated from the relay.
According to claim 9,
determining, by the controller, whether the relay is energized when the operation sound is generated; and
determining, by the controller, whether an abnormality has occurred in a contact spring provided in the relay based on a result of determining whether the relay is energized;
Junction block inspection method characterized in that it further comprises.
According to claim 12,
In the step of determining whether the relay is energized, the controller,
Junction block inspection method, characterized in that for determining whether the relay is energized through a multimeter.
According to claim 12,
In the step of determining whether an abnormality has occurred in the contact spring, the controller,
When the relay is not energized, it is determined that an abnormality has occurred in the contact spring.
According to claim 12,
stopping, by the controller, the supply of the power when the relay is energized;
determining, by the controller, whether the relay is energized again; and
determining, by the controller, whether an abnormality has occurred in a contact point of the relay based on a result of re-determining whether the relay is energized;
Junction block inspection method characterized in that it further comprises.
According to claim 15,
In the step of determining whether an abnormality has occurred in the contact, the controller,
Junction block inspection method characterized in that when the relay is energized, it is determined that an abnormality has occurred in the contact point.

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