KR101002573B1 - Apparatus for diagnosis of slot - Google Patents

Abstract

PURPOSE: A slot diagnostic device is provided to handle a systematic repair process by confirming the degradation risk of a slot. CONSTITUTION: A resistance detector is inserted into a slot(100) and detects resistance between slots. A power supply part(300) applies a voltage to the resistance detector. A test resistor(400) is serially connected to the resistance detector. A voltage measuring device(500) measures a voltage in both ends of the test resistor.

Description

Slot diagnosis device {Apparatus for diagnosis of slot}

The present invention relates to a slot diagnosing device, and more particularly, to a slot diagnosing device for easily detecting a defective contact of a slot into which an electronic card or the like is inserted and preventing a failure in advance.

Slots that are electrically connected to the main body by inserting printed circuit boards, such as electronic cards, are made to be easily detachable, but the use of them for a long time increases the risk of failure.

In particular, where safety and reliability of equipment are the top priority, such as a nuclear power plant, it is important to prevent the occurrence of a failure rather than to deal with it after the occurrence of the failure.

In the nuclear power plant, poor contact in the slot generates an alarm sound by blocking the electronic signal flow of the electronic card, and the nuclear power plant is stopped. However, in this case, whenever a warning sound occurs, the equipment should be stopped and numerous electronic cards must be checked one by one in order to check the failure area.

This method of checking with the naked eye is limited, and it is very inefficient because the inspection is performed only after failure.

Therefore, since there is no systematic management method for the current slot and it is not possible to know when and where a failure occurs, there is a need for equipment capable of systematic history management for slots and equipment capable of properly performing predictive maintenance.

An object of the present invention is to provide a device that can easily perform the predictive maintenance for the slot in order to solve the problems as in the prior art.

In order to achieve the above object, the present invention is inserted into a slot for detecting the resistance between the slots; A power supply unit applying an input voltage to the resistance detection unit; A test resistor connected in series with the resistance detector; And it provides a slot diagnosis device comprising a voltage meter for measuring the voltage across the test resistance.

The resistance detection unit includes a first conductor portion provided on the upper surface and a second conductor portion provided on the lower surface; A connecting part electrically connecting the first conductor part and the second conductor part; And a circuit board on which at least one of the first conductor portion and the second conductor portion is formed, an electrically shorted portion is formed between the connection portion and the power supply portion.

In another embodiment, a strain gauge inserted into a slot and receiving a force from the slot; A power supply unit electrically connected to the strain gauge to apply an input voltage; A test resistor provided between the strain gauge and the power supply unit; And it provides a slot diagnosis device comprising a voltage meter for measuring the voltage across the test resistance.

Both sides of the strain gauge are preferably provided with a first circuit board and a second circuit board in contact with both sides of the slot.

According to the present invention, it is possible to easily determine whether the slot is defective.

In addition, it is possible to find out the slots with a risk of failure even if the current failure is not possible to systematically comprehensive maintenance.

In addition, it is possible to anticipate the occurrence of failure by building a check history database.

The configuration and operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 1, the basic configuration of the slot diagnosis apparatus according to the present invention will be described.

The slot diagnosis apparatus according to the present exemplary embodiment includes a slot 100, a circuit board 200, a power supply unit 300, a test resistor 400, and a voltage meter 500.

The slot 100 is for inserting an electronic card or the like and electrically connecting the electronic card. The slot 100 is manufactured in a predetermined standard corresponding to the electronic card. The outside of the slot is surrounded by an insulator to prevent electric shock.

In particular, the slot spacing is designed to correspond to the thickness of the circuit board 200 to be inserted, and ideally the contact area between the slot 100 and the circuit board 200 should have a resistance of 0 ohms.

The circuit board 200 is inserted into the slot 100 to be electrically connected to serve as a resistance detector for detecting a resistance between the slots.

Conductors are provided on both sides of the circuit board 200, respectively. That is, the first conductor part 210 is provided on the upper surface of the circuit board 200, and the second conductor part 220 is provided on the lower surface of the circuit board 200. The first conductor portion 210 and the second conductor portion 220 may be formed of copper or aluminum.

Referring to FIG. 2, a short circuit 240 is formed in the middle of the circuit board 200. That is, the first conductor part 210 is divided into two places 212 and 214 with respect to the short circuit part 240. In addition, the second conductor portion 220 is also divided into two (222, 224) around the short circuit portion.

The first conductor part 210 and the second conductor part 220 are electrically connected to each other by a connection part 230 installed in the thickness t direction of the circuit board 200. In detail, the connection part 230 electrically connects the conductor parts 212 and 222 at one end divided by the short circuit part 240, and the other ends 214 and 224 are connected to the power supply part 300.

In the present exemplary embodiment, the short circuit part 240 is provided in the first conductor part 210 and the second conductor part 220, but only in one of the first conductor part 210 and the second conductor part 220. It may be provided.

A test resistor 400 is connected in series between the power supply unit 300 and the circuit board 200, and a voltage meter 500 capable of measuring a voltage of the test resistor 400 at both ends of the test resistor 400. ) Is provided.

Before the circuit board 200 is inserted into the slot 100, the short circuit 240 does not establish a closed circuit. However, when the circuit board 200 is inserted into the slot 100, the short circuit 240 is electrically connected by the slot 100, thereby establishing a closed circuit.

At this time, the resistance in the slot 100 should ideally be 0, but if the contact resistance in the slot 100 is high, there is a high possibility that it will not operate normally.

For example, when the voltage of the power supply unit 300 is 1V and the test resistance 400 is 1Ω, ideally, if the contact resistance in the slot 100 is 0, the voltage in the voltage meter 500 is 1V. However, if the contact resistance in the slot 100 is not 0, the value measured by the voltage meter 500 is lower than 1V.

On the basis of this principle, not only whether the slot 100 is normally operated based on the value measured by the voltage meter 500, but also the possibility of failure in the future can be determined by recording the changed numerical value. .

Next, with reference to FIG. 3, another embodiment of a slot diagnosing apparatus capable of determining whether a slot is defective will be described.

In the slot diagnosis apparatus according to the present exemplary embodiment, the circuit board 600 includes a first circuit board 610 and a second circuit board 620 having a thickness smaller than that of the slot 100. A strain gauge 700 is installed between the substrate 610 and the second circuit board 620.

One end of the strain gauge 700 is connected to a power supply unit 300 for applying a DC voltage, and a test resistor 400 is connected in series between the strain gauge 700 and the power supply unit.

In addition, both ends of the test resistor 400 is provided with a voltage meter 500 that can measure the voltage of the test resistor 400.

The slot 100 is provided with a pin for electrically connecting the circuit board. The pin has elasticity, and when the circuit board is inserted into the slot, an elastic force acts to bring the circuit board into close contact with the circuit board.

The strain gauge 700 has a different resistance value according to the deformation amount, the circuit board 600 is deformed by the force pushed by the pin, the deformation occurs in the strain gauge 700, the resistance value is changed by the deformation amount will be.

For example, when the voltage of the power supply unit 300 is 1V and the test resistor 400 is 1Ω, the result of the measurement by the voltage meter 500 when the resistance of the strain gauge 700 is 1Ω is normal. 0.5V.

However, if a change occurs in the force of the slot 100 pin, the resistance of the strain gauge 700 is changed, so the result measured by the voltage meter 500 is different from 0.5V. Therefore, it is possible to confirm the abnormality of the slot 100 by comparing the result value.
Specifically, when using a lot of time, the elastic force that the pin of the slot 100 should be appropriately falls, so that when the strain gauge 700 is inserted, the strain gauge 700 receives a pressure less than the normal pressure. In this case, if the resistance of the strain gage 700 is 1Ω when the normal pressure is received from the pin, the resistance of the strain gage 700 may be 2Ω when the elastic force of the pin is dropped.
In addition, since the strain gauge and the test resistor are connected in series, the voltage applied to the test resistor varies according to the resistance value of the strain gauge. In the above example, when the slot state is normal, since the voltage of the power supply unit 300 is 1V, the test resistance is 1Ω, and the strain gauge resistance is 1Ω, the result measured by the voltage meter 500 becomes 0.5V, but the slot state becomes loose. When the resistance of the strain gage 700 becomes 2Ω due to an abnormal state, the result measured by the voltage meter 500 becomes 0.33V. That is, when the result measured by the voltage meter 500 is outside the predetermined error range from the reference voltage (normal voltage) 0.5V, it is determined that the slot 100 has failed.

1 is a block diagram showing the configuration of a slot diagnosis apparatus according to the present invention;

FIG. 2 is a plan view showing the configuration of the circuit board of FIG. 1; FIG.

Figure 3 is a block diagram showing another embodiment of a slot diagnosis apparatus according to the present invention.

<Description of Major Symbols in Drawing>

100: slot 200: circuit board

210: first conductor part 220: second conductor part

230: connection portion 240: short circuit

300: power supply unit 400: test resistance

500: voltage measuring instrument 700: strain gauge

Claims (3)

A circuit board inserted into a slot having a predetermined thickness; A power supply unit supplying power to the circuit board; A test resistor connected in series between the circuit board and the power supply unit; And It includes a voltage meter for measuring the voltage across the test resistor, The circuit board has a first conductor portion on one side, a second conductor portion on the opposite side, and a connection portion for electrically connecting the first conductor portion and the second conductor portion as a portion to be inserted into the slot. The power supply unit is connected to the first conductor portion and the second conductor portion to apply a voltage, And at least one of the first conductor portion and the second conductor portion has a short circuit portion electrically shorted between the connection portion and the power supply portion. A strain gauge inserted into the slot and receiving a force from the pin of the slot; A power supply unit electrically connected to the strain gauge to apply an input voltage; A test resistor connected in series between the strain gauge and the power supply unit; And It includes a voltage meter for measuring the voltage across the test resistance, Both sides of the strain gauge slot diagnosis apparatus is provided with a first circuit board and a second circuit board in contact with both sides of the slot, respectively. delete

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