KR101151613B1 - A portable tester of electron parts for aircraft - Google Patents

Abstract

The present invention provides a portable test apparatus for an electronic component for an aircraft for accommodating a plurality of electronic components mounted on an aircraft at the same time to test for abnormalities, the plurality of sockets to which a plurality of electronic components to be tested are inserted and coupled, and a power supply to the portable test apparatus. A power supply unit for supplying, a control unit for determining whether an electronic component to be tested is abnormal, a display unit for displaying an abnormal state of the plurality of test target electronic products, an operation unit for operating the portable test apparatus, the socket, And a case for selectively shielding the power supply unit, the control unit, the display unit, and the operation unit therein.
The operation unit may include a power operation unit for selecting an AC power source or a DC power source, a self-diagnostic operation unit for self-diagnosis of the portable test device, and a start operation unit for a test command.

Description

A portable tester of electron parts for aircraft

The present invention relates to a portable test apparatus for an electronic component for an aircraft in which an electronic component, such as a relay, a diode, and a resistor, used in an aircraft, is inserted into a corresponding socket, and then tested to determine an operation state and an abnormality. will be.

In general, the aircraft is subjected to regular inspections at regular intervals, at which time the operating state of the electrical system is tested.

At this time, the electronic parts such as relays, diodes, and resistors were divided into modules and examined as a whole in order to check the operation status and abnormality.

That is, a module including a plurality of electronic components, such as a flight component module including a flight-related electronic component and a fuel component module including a fuel-related electronic component, is separated from an aircraft and then moved to a test room for overall inspection.

Therefore, if the operation state is not good or abnormal for each module, the problem was solved by replacing the entire module without replacing the electronic components independently.

However, the conventional electronic component inspection method has the following problems.

In other words, since the module separated from the aircraft is moved to the test room to check for failure, it is necessary to spend a long inspection time, there is a problem that causes manpower waste due to the separation and assembly, transportation and inspection of the module.

In addition, expensive inspection equipment for inspecting each module should be provided, and such expensive inspection equipment has to be operated by a skilled person and a professional, so there is a problem that the maintenance and management costs increase rapidly.

In addition, it is not preferable because the operation of the aircraft due to the prolonged inspection time will interfere with the operation.

An object of the present invention is to solve the above problems, it is possible to determine the operation status and abnormality by testing by inserting the electronic components such as relays, diodes, resistors used in the aircraft and inserting them in the socket. The present invention provides a portable test apparatus for an aircraft electronic component.

Another object of the present invention is to provide a portable test apparatus for an electronic component for an aircraft, by which inspection time is marked and displayed for each electronic component included in the module, thereby significantly reducing the inspection time and enabling accurate inspection.

The present invention provides a portable test apparatus for an electronic component for an aircraft for accommodating a plurality of electronic components mounted on an aircraft at the same time to test for abnormalities. A power supply unit for supplying, a control unit for determining whether an electronic component to be tested is abnormal, a display unit for displaying an abnormal state of the plurality of test target electronic products, an operation unit for operating the portable test apparatus, the socket, And a case for selectively shielding the power supply unit, the control unit, the display unit, and the operation unit therein.

The operation unit may include a power operation unit for selecting an AC power source or a DC power source, a self-diagnostic operation unit for self-diagnosis of the portable test device, and a start operation unit for a test command.

The display unit may display a signal provided from the control unit in the color of light to indicate whether the electronic component to be tested is abnormal.

The self-diagnostic manipulation unit includes a power check unit for checking whether the power supply unit is abnormal, and a display check unit for checking an abnormal state of the display unit.

The control unit is characterized in that a program for determining whether or not the plurality of electronic components are abnormal.

According to the portable test apparatus for an electronic component for an aircraft configured as described above, an electronic component such as a relay, a diode, and a resistor used in an aircraft is removed, inserted into a corresponding socket, and tested to determine whether the operation state and abnormality are present. It is possible.
Therefore, the inspection time can be significantly shortened by checking and displaying an abnormal state for each electronic component included in the module, and there is an advantage that accurate inspection can be performed.

In addition, it is easy to carry and the inspection is easy, and expensive equipment and professional personnel have unnecessary effects.

In addition, there is an advantage that the inspection cost is low and accurate and rapid inspection for each electronic component.

1 is a use state showing the configuration of a portable test apparatus for an electronic component for aircraft according to the present invention.
Figure 2 is a plan view showing the configuration of a portable test apparatus for an electronic component for aircraft according to the present invention.
Figure 3 is a perspective view showing the internal structure in a portable test apparatus for an electronic component for aircraft according to the present invention.
Figure 4 is a perspective view showing a state of use in the portable test apparatus for electronic components for aircraft according to the present invention.

Hereinafter, a portable test apparatus for an electronic component P for an aircraft according to the present invention will be described in detail with reference to FIG. 1.

Figure 1 is a state diagram showing the configuration of a portable test device (hereinafter referred to as 'portable test device 100') of the electronic component P for aircraft according to the present invention.

As shown in the drawing, the portable test apparatus 100 is a device for testing an abnormality by simultaneously receiving a plurality of electronic components (P) mounted on the aircraft, the electronic component (P) includes a relay, a diode, a resistor, etc. However, even if they have different shapes, they can be tested.

In addition, the portable test apparatus 100 is configured to be portable in a state where a plurality of components are accommodated therein. To this end, the portable test apparatus 100 has an exterior shape by a case 160 having an approximately rectangular parallelepiped shape and an empty inside when shielded.

The case 160 is formed of a material having impact resistance so as not to be damaged even when an impact is applied to a plurality of parts stored therein, and has a structure that can be opened or shielded to be selectively operated.

On the other hand, the case 160 is provided with a socket 110 to which the electronic component P to be tested is fitted. The socket 110 is preferably provided in plurality so that a plurality of electronic components (P) having different shapes and sizes can be independently inserted and tested.

The operation unit 120 is provided below the socket 110. The operation unit 120 allows AC power or DC power to be applied to the portable test apparatus 100, and self-diagnosing whether the portable test apparatus 100 itself has no abnormality, and testing the electronic component P. It plays a role to give commands for.

The right side of the operation unit 120 is provided with a power connection unit 130. The power connection unit 130 is a place for connecting the power when it needs to be supplied from the outside, and includes an AC power connection unit 134 for connecting AC power and a DC power connection unit 132 for connecting DC power. It is composed.

In the embodiment of the present invention, the DC power supply 132 is supplied with DC 28V, and the AC power supply 134 is connected with AC 220V.

An opening 140 is provided above the power connection unit 130. The opening 140 is fixed by the fastening member, and is selectively separated when necessary to open the lower space to the outside. In the embodiment of the present invention, the built-in battery (see 152 of FIG. 3). ) For easy replacement.

Hereinafter, a detailed configuration provided for testing the electronic component P will be described in detail with reference to FIG. 2.

2 is a plan view showing the configuration of a portable test apparatus 100 of an electronic component P for an aircraft according to the present invention.

As shown in the drawing, a display unit 170 is provided around the socket 110. The display unit 170 distinguishes and displays an abnormal state of the electronic component P which is plugged into the socket 110 and tested by the color of light. The display unit 170 is provided with the same number in the same direction in the plurality of sockets 110. .

In the embodiment of the present invention, if the good product after the test to be turned on the green light, and if the non-good product after the test to be displayed on the red light to be displayed visually.

Therefore, the display unit 170 may be configured to be turned on in the case of a good product or to be turned on in the case of a defective product by configuring one display unit 170 in the socket 110 within the range of visual confirmation.

As another example, when the electronic component P has an abnormality, the display unit 170 may be configured to blink.

The power supply unit 150 is configured to operate a variety of functions as described above, the power control unit 122 to selectively test by applying an AC power or a DC power to the portable test device 100 And a self-diagnostic operation unit 124 for self-diagnosis of the portable test apparatus 100 itself, and a start operation unit 128 operated for testing.

Therefore, when the AC power is selected by operating the power operation unit 122, power is applied through the AC power connector 134, and when DC power is selected, power is supplied through the DC power connector 132. .

In addition, the power operation unit 122 is operable to cut off the power supply to the portable test device 100, it is operable to receive the power supply from the built-in battery 152 therein.

The self-diagnostic manipulation unit 124 is configured to test whether there is no problem in the portable test apparatus 100 itself before testing the electronic component P, and is composed of a plurality of switches.

That is, the self-diagnostic manipulation unit 124 includes a power check unit 125 for checking whether the built-in battery 152 is abnormal, and a display check unit 126 for checking an abnormal state of the display unit 170. It is configured by.

The power checker 125 checks whether the test is impossible because the voltage of the built-in battery 152 is weak in testing the electronic component P. The power checker 125 displays the display unit 170. It is configured to work with).

That is, the power check display unit 125 ′ is provided above the power check unit 125 to display the state of the built-in battery 152 in a lit state.

The display check unit 126 is provided on the right side of the power check unit 125. The display checking unit 126 is configured to check whether the display unit 170 is able to display it correctly after testing the electronic component P. When the display checking unit 126 is pressed, Both the green and the red display unit 170 and the power check display unit 125 ′ are turned on, and if there is a place that is not lit, the light emitter (not shown) is replaced.

On the right side of the display check unit 126, a start operation unit 128 is provided. The start manipulator 128 is a switch for testing each electronic component P which is inserted into and fixed to the socket 110.

On the other hand, the lower side of the opening 140 is provided with a power supply unit 150 and the control unit 180.

Hereinafter, the configurations of the power supply unit 150 and the control unit 180 will be described with reference to FIG. 3.

3 is a perspective view showing the internal structure of the portable test apparatus 100 for an electronic component P for an aircraft according to the present invention.

As shown in the drawing, the power supply unit 150 is configured to supply power to the portable test apparatus 100, and includes the above-described built-in battery 152 and a DC power supply 154.

The built-in battery 152 is used when the supply of AC power or DC power is not smooth around the aircraft for testing the failure of the electronic component P, and a rechargeable secondary battery is preferably applied.

The built-in battery 152 is selectively adopted at the time of the operation of the power control unit 122 described above and configured to supply power to the portable test device 100, and is charged while the portable test device 100 is stored.

The DC power supply 154 is configured to convert the AC power supplied from the outside into the DC power, in the embodiment of the present invention by converting the AC 220V power supplied from the external to 28V DC to the portable test device 100 Configured to feed.

The control unit 180 is provided on the left side of the power supply unit 150. The control unit 180 is a built-in program (not shown) for determining whether an abnormality of the plurality of electronic parts (P) is embedded, and controls the operation of the display unit 170, the power supply unit 150, and the like. .

Hereinafter, a process of testing whether the electronic component P is abnormal by using the portable test apparatus 100 configured as described above will be described with reference to FIGS. 1 to 4.

4 is a perspective view showing a state of use in the portable test device 100 of the electronic component P for an aircraft according to the present invention.

First, the portable test apparatus 100 is stored in a state in which the case 160 is covered and shielded inside, and moves to the aircraft when an abnormality test of the electronic component P is required.

Thereafter, the electronic component P is separated from the aircraft, and the portable test apparatus 100 is left open as shown in FIG. 4.

In this case, the portable test apparatus 100 may be operated by receiving AC or DC power. For example, when the test using the built-in battery 152 is performed, the user operates the power control unit 122 to supply power from the built-in battery 152. Allow supply to occur.

Thereafter, the user operates the self-diagnostic operation unit 124 to check whether the built-in battery 152 is abnormal. More specifically, the built-in battery 152 may be checked for abnormality by using the power check unit 125 and may be checked through a lighting state of the power check display unit 125 ′.

If an abnormality is found in the built-in battery 152 through the power check display unit 125 ′, the built-in battery 152 may be replaced or may be tested by receiving AC power from the outside.

When there is no abnormality of the built-in battery 152, the display checking unit 126 is operated to check an abnormal state of the display unit 170. If there is a place in the display unit 170 that is not lit, the user will replace the lamp inside the display unit 170 to use.

When the electronic component P is ready in a state where the test of the electronic component P is possible as described above, the electronic component P is fixed to the corresponding socket 110.

In this state, the user operates the start operation unit 128 to check the lighting state of the display unit 170.

On the other hand, in the case of testing by receiving the AC power from the outside due to the abnormality of the built-in battery 152, the AC power supply unit 122 is operated to adopt the AC power.

Thereafter, the user connects the AC power supplied from the outside to the AC power connector 134, and then checks the lighting state of the display unit 170 using the self-diagnostic manipulation unit 124.

Then, after the electronic component P is inserted into the socket 110, the start operation unit 128 is operated to check whether the electronic component P is abnormal through the display unit 170.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention may be made by those skilled in the art within the above technical scope.

100. Portable Tester 110. Socket
120. Control panel 122. Power control panel
124. Self-diagnosis operation unit 125. Power supply inspection unit
125 '. Power check display unit 126. Display check unit
128. Start Control Panel 130. Power Connection
132. DC power connector 134. AC power connector
140. Opening 150. Power supply unit
152. Built-in Battery 154. DC Power Supply
160.Case 170.Indicator
180. Control unit P. Electronic parts

Claims (5)

In the portable test device for aircraft electronic components for accommodating a plurality of test electronic components of the aircraft electronic components at the same time to test for abnormalities,
A plurality of sockets to which the plurality of test target electronic components are inserted and coupled;
A power supply unit for supplying power to the portable test device;
A control unit for determining whether the plurality of test target electronic components are abnormal;
A display unit displaying an abnormal state of the plurality of test target electronic products;
An operation unit for operating the portable test apparatus,
And a case for shielding the socket, the power supply unit, the control unit, the display unit, and the operation unit therein and selectively shielding the portable electronic device for an aircraft electronic component. The method of claim 1, wherein the operation unit,
A power control unit for selecting AC power or DC power,
A self-diagnostic manipulation unit for self-diagnosis of the portable test device;
A portable test device for an aircraft electronic component, characterized in that it comprises a start manipulator for a test command. The method of claim 2, wherein the display unit,
Portable test apparatus for an electronic component for an aircraft, characterized in that it indicates the abnormality of the electronic component to be tested by displaying the signal received from the control unit in the color of light. The method of claim 3, wherein the self-diagnostic manipulation unit,
A power check unit for checking whether the power supply unit is abnormal;
And a display inspection unit for checking an abnormal state of the display unit. The method of claim 4, wherein the control unit,
Portable test apparatus for an aircraft electronic component, characterized in that a program for determining whether or not the plurality of electronic components to be tested abnormal.

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