KR20060062722A - An apparatus for self-testing of gauge - Google Patents

Abstract

The present invention relates to a self-diagnostic apparatus for a gauge, in order to facilitate the diagnosis of the failure of the system to which the gauge is connected, the gauge for visually displaying the value measured by the sensor to the user according to the electrical signal from the sensor And a resistor connected in parallel between the sensor and the gauge, a diagnostic switch connected between the resistor and the power supply, and a power supply unit connected to the diagnostic switch to supply power to the resistor.

Gauge, sensor, resistor, variable resistor, switch

Description

An apparatus for self-testing of gauge

1 is a simplified circuit diagram of a gauge system according to the prior art.

2 is a simplified circuit diagram of a gauge system incorporating a self-diagnostic device in accordance with an embodiment of the present invention.

3 is a simplified diagram of a gauge according to a state when the self-diagnosis apparatus according to the embodiment of the present invention is not operated.

4 is a simplified diagram of a gauge according to a state when the self-diagnostic apparatus is operated according to the embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: gauge 12: indicating needle

20: sensor 100: power supply

105: diagnostic switch 110: variable resistor

The present invention relates to a self-diagnostic apparatus for a gauge, and more particularly, to a self-diagnostic apparatus that can facilitate the diagnosis of the failure of the system to which the gauge is connected.

Gauge (Guge) is a mechanism for displaying the operating state of various mechanical and electrical devices for the user to visually check.

Although there are many ways to move the scale for each gauge, a typical gauge consists of a spiral leaf spring coupled to it, and when applied with electricity, the spring is moved by electromagnetic, moving the needle connected to the above-mentioned spring.

1 is a simplified circuit diagram of a gauge system according to the prior art.

As shown in FIG. 1, the gauge system according to the related art has a configuration in which a sensor 20 is connected to a gauge 10.

In this configuration, the sensor 20 measures the water temperature, rpm, and the like, and transmits it to the gauge 10 as an electric signal. The gauge 10 displays the value measured by the sensor according to the electric signal from the sensor 20 so that the user can check it through the indicator needle.

If the configuration of the device or equipment is complex and there are many sensor readings to be checked by the user, for example in large ships, the failure of the gauge may lead to an accident.

Therefore, it is necessary to check all gauges for normal operation before the ship departs. When using a gauge system, there are two possible ways in which the gauge will not operate normally.

First, the measurement value is not transmitted to the gauge 10 due to the failure of the sensor 20.

Second, the gauge needle does not move due to a failure of the gauge 10.

In order to determine the cause of such a malfunction, the gauge system according to the prior art, after the user (or administrator) bridged the connection line with the sensor 20 connected to the gauge 10 in parallel or once cut the connection line, The power should be supplied to check that the gauge is operating normally.

If the gauge 10 does not operate even when the power is applied through this checking operation, it is possible to determine that the gauge 10 has failed, and when the gauge 10 operates, it is possible to determine that the sensor 20 has failed. Will be.

However, since the number of gauges used in the engine of a ship, etc. is large, there exists a problem which requires the work time and cost to connect the inspection circuit by the gauge 10 and the parallel bridge one by one.

The present invention is derived to solve the problem of the gauge system according to the prior art described above, and an object of the present invention is to provide a self-diagnosis apparatus for a gauge capable of diagnosing a failure of the gauge by only operating a diagnostic switch.

In order to achieve the above object, the self-diagnostic apparatus of the gauge according to the present invention, in the gauge for visually displaying the value measured by the sensor to the user in accordance with the electrical signal from the sensor, in parallel between the sensor and the gauge It is characterized in that it comprises a resistor connected to the connection between the resistor, the resistor and the power supply connected to the diagnostic switch and supplying power to the resistor.

Here, the above-mentioned resistance is preferably a variable resistor whose resistance value is changeable according to the operating capacity of the gauge.

In the following, embodiments of the present invention are described with reference to the accompanying drawings.

In the following description of the present invention, if it is determined that detailed descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, the terms to be described later are terms set in consideration of functions in the present invention, and these terms may vary according to the intention or custom of the producer producing the product, and the definition of the terms should be made based on the contents throughout the present specification.

First, a circuit configuration of a self-diagnosis apparatus according to an embodiment of the present invention will be described with reference to FIG. 2.

2 is a simplified circuit diagram of a gauge system incorporating a self-diagnostic device in accordance with an embodiment of the present invention.

As shown in FIG. 2, in the self-diagnostic apparatus according to the present embodiment, one terminal of the variable resistor 110 is connected in parallel between the gauge 10 and the sensor 20. The other terminal of the variable resistor 110 is connected to the diagnostic switch 105. The other terminal of the diagnostic switch 105 is connected to the power supply unit 100.

In addition, as shown in FIG. 2, it can be seen that these variable resistors 110 are connected to a plurality of gauges 10, respectively.

In addition, the variable resistor 110 has a resistance value in advance so that when the diagnostic switch 105 is turned on and the power of the power supply unit 100 is supplied, the power is not supplied beyond the maximum input power value of the gauge 10. Note that is set.

Hereinafter, the operation of the self-diagnosis apparatus according to the present embodiment will be described.

Prior to describing this operation example, this operation example uses three gauges, and assumes that the second one of them is in a broken state.

Figure 3 is a simplified diagram of a gauge according to the state when the self-diagnostic apparatus according to the embodiment of the present invention is not operated, Figure 4 is a gauge according to the state when operating the self-diagnostic apparatus according to the embodiment of the present invention Is a simplified diagram.

First, the gauge system starts in an inoperative state.

At this time, all the gauges 10, as shown in Figure 3, the indicator needle 12 is positioned at the lowest value.

Thereafter, the user turns on the diagnostic switch 105 to check whether the gauge 10 is normally operated.

When the diagnostic switch 105 is in an 'on' state, power of the power supply unit 100 is transmitted to the variable resistor 110.

Power supplied to the variable resistor 110 is reduced to an appropriate voltage according to the operating range of the gauge 10, and then supplied to the gauge 10.

As a result, the indicating needle 12 of the gauge 10 moves to the maximum value. The state at this time is shown in FIG.

At this time, since the second gauge 10 is in a broken state as previously assumed, the first and third gauges are positioned as shown in FIG. 4, but the indication needle 12 is positioned, but the second gauge is in the same state as shown in FIG. 3. (12) is located.

This allows the user to know that the second gauge has failed, and thus can perform appropriate repairs. Since such failure diagnosis can be performed only by the operation of the diagnostic switch 105, the user can easily manage the gauge system without specially learning the gauge failure diagnosis technique.

In addition, by changing the value of the variable resistor 110, it is possible to confirm whether the indicating needle 12 of the gauge 10 operates properly.

That is, when the variable resistor 110 is operated to increase the resistance value of the variable resistor 110, the voltage value transmitted to the gauge 10 decreases, so that the indicator needle 12 gradually moves to the initial position.

By such an operation, it is possible to check whether the instruction needle 12 is normally moved.

In the above, embodiments of the present invention have been described with reference to the accompanying drawings.

However, it is to be noted that the present invention is not limited to the above-described embodiments and that various modifications and changes can be made by those skilled in the art within the spirit and spirit of the appended claims.

 As described above, according to the present invention, it is possible to provide a self-diagnostic apparatus capable of confirming whether a gauge is broken by only operating a diagnostic switch.

In addition, according to the present invention, it is possible to check whether there is a failure only by the operation of the diagnostic switch, so that the user can manage the gauge system without having to acquire a special diagnostic technique.

In addition, according to the present invention can provide a self-diagnostic apparatus that can determine whether the movement of the gauge needle is abnormal by the operation of the variable resistor.

Claims (2)

A gauge for visually displaying a value measured by a sensor to a user according to an electrical signal from a sensor, A resistor connected in parallel between the sensor and the gauge; A diagnostic switch connected between the resistor and a power source; And And a power supply unit connected to the diagnostic switch to supply power to the resistor. The method of claim 1, And the resistor is a variable resistor whose resistance value is changeable according to the operating capacity of the gauge.

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