RU2451944C2 - Method and set of equipment for testing three-phase electrical supply networks on board aircraft - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: one connects the electric power supply lines and signalling lines to the input contacts (24) of the testing device (1) instead of the three-phase current consumer. One applies voltages to the electric power supply lines. One checks the voltages using the testing device (1) to determine whether the voltages applied to the electric power supply lines are equal to the preliminarily preset voltage values. Simultaneously with checking voltages one checks the phases using the testing device (1) to determine whether the phase shift of the voltages applied to the electric power supply lines is equal to preliminarily preset phase shift value. One ensures automatic connection of the input contacts (25) of the testing device (1) to the input contacts of the three-phase current consumer if the voltages and the voltage phase shift are equal to the preliminarily preset values.

EFFECT: ground tests simplification.

7 cl, 2 dwg

Description

FIELD OF THE INVENTION

The present invention relates to a method and a set of equipment for testing power lines and signal transmission lines on board an aircraft. Power and signal lines are typically used to connect a three-phase electric motor to the aircraft power system.

State of the art

On board modern aircraft, there are many three-phase electric motors used to drive various on-board equipment, in particular hair dryers or fans of the air conditioning system, which are located in various compartments of the passenger compartment, in the crew cabin, in bathrooms, in the cargo compartment or in other air rooms vessel. The fan is usually driven by a three-phase electric motor. A thermal switch is installed inside the three-phase electric motor, which provides automatic shutdown of the three-phase electric motor, for example, when the motor windings overheat.

It is important that these three-phase electric motors function correctly, rotate in the right direction, and their protective devices and fuses operate in accordance with the technical requirements. Therefore, during the final assembly and after repair or modification of the aircraft, it is necessary to conduct tests to verify the correct connection and functioning of three-phase equipment.

One such test involves checking the electronic control circuits on board the aircraft in terms of the correct functioning of all electric motors. During these tests, the components and control logic circuits installed in front of three-phase motors are checked. To this end, three-phase motors are turned off before conducting such tests.

The objective of these tests is to ensure that all output contacts (to which three-phase motors are connected to drive, for example, fans) are present and the correct voltage is applied to the output contacts. Secondly, the phase shift of the voltages between the three output contacts is checked. In other words, it is necessary to check whether each phase corresponds to the specification, for example, whether the phase shift is 120 °. In addition, it is necessary to check whether, when the thermal switch is tripped, an appropriate warning signal is sent to the indicator, which is located, for example, in the cockpit of the aircraft, and is visible to the pilot. A warning signal informs the pilot that one of the three-phase electric motors is overheated, and therefore automatically turns off.

To date, maintenance or manufacturing testing and control personnel have had to manually verify the correct voltage and phase shift at each output contact. It was necessary to manually simulate the operation of the thermal switch in order to verify that the operation of the thermal switch triggers an alarm (for example, “electric motor overheated” or “electric motor failure”) in the aircraft cabin. Thus, these tests and checks required a large number of personnel and many different diagnostic tools, as well as being expensive.

Disclosure of invention

The objective of the present invention is to provide a method and a set of equipment for testing power lines and signal transmission lines on board an aircraft, which will greatly simplify ground testing of the aircraft. In particular, the present invention provides a method and a set of equipment for testing power supply lines and signal transmission lines to and from onboard three-phase electric motors for the correct voltage and phase shift.

This and other problems are solved by the method of testing power lines and signal transmission lines on board an aircraft, wherein said power lines and signal transmission lines usually connect a three-phase electric motor to the aircraft’s power supply system, and a three-phase electric motor has separate input contacts, to which during three-phase operation An electric motor on board the aircraft must be supplied with a predetermined voltage with a predetermined phase shift. The method according to the invention includes operations in which power lines and signal lines are connected to the input contacts of the test device instead of a three-phase electric motor, voltage is applied to the power lines and signal lines, and the voltage is checked using a test device to determine if the voltages are equal applied to power lines and signal lines, pre-set voltage values, and carry out phase checks stresses on the test device in conjunction with a test voltage in order to determine whether the shift is equal to the voltages applied to the power lines and signal lines to a predetermined value of phase shift.

The method according to the invention allows for more efficient ground testing of the aircraft and, in particular, tests related to checking the correct voltage and phase shift at the input contacts of a three-phase electric motor. Thus, it is no longer necessary to check the indicated voltages and phase shifts manually by the maintenance or production staff. At the same time, the components and control logic circuits installed in front of three-phase electric motors are checked. The test device used for the method according to the invention allows simultaneous verification of stresses and phase shift, which significantly reduces the time of ground testing of the aircraft.

According to the method according to the invention, the output contacts of the test device are preferably connected to the input contacts of a three-phase electric motor, and the voltage and phase shifts at the input contacts of the three-phase electric motor are monitored using a test device.

According to a preferred embodiment of the invention, the operation of connecting the output contacts of the test device to the input contacts of a three-phase motor is performed automatically. Thus, at first, the components and control logic circuits installed in front of three-phase electric motors are checked, and in case of their correct functioning, a three-phase electric motor is automatically connected, turned on and starts to work.

In a preferred embodiment, the method comprises an operation in which, using a test device, a thermal switch installed in a three-phase motor is simulated to protect said three-phase motor from overheating, in order to ensure that the corresponding warning signal is transmitted through signal lines to an indicator indicating a malfunction three-phase electric motors. Thus, in addition to checking voltages and phase shifts, the test device used in the method according to the invention can simulate the operation of a thermal switch. Such thermal switches are important components that are designed to prevent overheating of three-phase electric motors during aircraft operation and, therefore, to minimize the risk of fire on board the aircraft. Using the method according to the invention, it is possible to easily verify the correct functioning of the control circuits of the thermal switches simultaneously with the execution of other ground tests conducted on the three-phase input contacts of the phase motors.

In another preferred embodiment of the method according to the invention, various adapters are used to connect the contacts of the signal transmission lines having a different configuration to the input contacts of the test device. The contacts of the power lines and signal lines, which must be connected to different three-phase electric motors located in different compartments of the aircraft, have a different configuration. Therefore, to test the electrical circuits installed in front of each of these three-phase electric motors, as well as to verify the correct voltage and phase shift at the input contacts of these three-phase electric motors, various test devices with different configurations of output contacts may be required. This problem is solved with the help of various adapters, which are used together with a single test device. This greatly simplifies the conduct of such tests and reduces their time.

By the method according to the invention, it is possible to verify control logic circuits or electronic infrastructure on board an aircraft placed in front of various three-phase electric motors, such as three-phase electric motors used in an air conditioning system, electric motors of an air recirculation system and electric motors of fuel pumps, or any other consumers of three-phase current.

Another aspect of the invention provides a set of equipment comprising a test device and a plurality of adapters for connecting the contacts of signal lines on board an aircraft having a different configuration to the input contacts of the test device.

The test device included in the kit according to the invention contains means for determining the correspondence of the voltages applied to the input contacts of the test device, the predetermined voltage values, and also means for determining the correspondence of the phase shift of the voltages applied to the input contacts of the test device, the preset value of the phase shift .

The test device included in the kit according to the invention is preferably configured to determine a predetermined voltage value of 115 V, as well as to determine a predetermined phase shift value of 120 °. Thus, maintenance or production personnel need only one kit according to the invention for all operational tests of various three-phase electric motors installed on board the aircraft. Due to this, ground testing is greatly simplified, the time for operational testing is significantly reduced, and the required number of test devices is also reduced.

Other features and advantages of the present invention will become apparent from the following detailed description of a preferred embodiment of the invention with reference to the accompanying drawings.

Brief Description of the Drawings

Figure 1 is a perspective view of a test device used in the method according to the present invention.

FIG. 2 is an electrical diagram of the test device shown in FIG.

The implementation of the invention

Figure 1 shows the test device 1 used in the method according to the present invention. The test device 1 is particularly suitable for checking the correctness of voltages and phase shifts of the voltages applied to the input contacts of a three-phase electric motor mounted on board the aircraft. In addition, the test device 1 can simulate the operation of a thermal switch, which is usually installed in a three-phase electric motor to prevent overheating of the motor windings, thereby minimizing the risk of fire on board the aircraft.

Figure 1 shows a perspective view of the test device 1. On the front panel of the test device 1 there are three light-emitting diodes L1, L2, L3. Light emitting diodes L1, L2, L3 are active if the correct voltage is applied to the input terminals 24 (see FIG. 2), which are located on the rear wall of the test device 1. The voltage applied to the input contacts 24 of the test device 1 is correct if the same voltage, applied to the input contacts of a three-phase electric motor installed on board the aircraft, does not cause a failure or malfunction of the three-phase electric motor, in other words, if the indicated voltage is 115 V In addition, if the phase shift is equal to a predetermined value, in particular 120 °, the light emitting diode 60 marked “OK” will be active, indicating that the phase shift of the applied voltage i It wishes to set up right. A light emitting diode 70 marked "Not OK" will be active if the phase shift is not equal to a predetermined value, however, the voltages applied to the input contacts of the test device 1 are correct.

In addition, on the front panel of the test device 1 there is a test switch 90, which is used in the method according to the invention to simulate the tripping of a thermal switch installed in a three-phase electric motor. The output contacts "D" and "E" are used to identify and eliminate malfunctions in the event that the voltage is not automatically supplied to the electric motor due to a malfunction in the aircraft.

On the rear wall of the test device 1 are output contacts 25 (see Figure 2), which can be connected to the input contacts of a three-phase motor. However, output contacts 25 may remain unconnected if necessary.

Figure 2 presents the electrical circuit of the test device shown in figure 1. The input contacts 24 are connected by conductors with a pointer 30 alternating phase sequence. The result of the determination of phase sequence alternation made by the phase sequence alternation indicator 30 is displayed by light emitting diodes L1, L2, L3. If a predetermined or correct voltage, for example 115 V, is applied to all three input contacts 24 of the test device 1, all three light emitting diodes L1, L2, L3 are active.

Due to the phase shift of the voltages across the various conductors between the input contacts 24 and the phase sequence alternating indicator 30, a time-varying magnetic field arises. This time-varying magnetic field leads to the emergence of a time-dependent electromagnetic force, which causes the closure of the switches 80. After the closure of the switches 80, the corresponding voltages through the conductors are applied to the output contacts 25 and then to the connected three-phase motor.

If the phase sequence indicator 30 determines that the phase shift of the voltages applied to the input terminals 24 of the test device is equal to a predetermined value, for example 120 °, a voltage is applied to the optoelectronic pair 40, which causes current to flow through the relay coil 50, resulting in relay contact 50 closes. Accordingly, current flows through the light emitting diode 60, which becomes active and indicates that the correct voltages with the correct phase shift are applied to the output contacts 24. If the optoelectronic pair 40 is not activated due to the fact that the phase sequence indicator detects either an incorrect voltage on one of the conductors between the input contacts 24 and the phase sequence indicator, or an incorrect phase shift between these voltages, the relay 50 remains open and the light emitting diode becomes active 70, indicating failure in a test conducted using a phase sequence indicator 30.

The test device 1 also contains a test switch 90, pressing which simulates the operation of the thermal switch in a three-phase motor. If test switch 90 is not pressed, signal lines D and E are permanently connected. For electric motors that turn on at different voltages, the relay 91 is connected to the switch 90 through the adapter 5.

The motor overheating detection circuit can be bypassed to troubleshoot by electrically connecting the output terminal “D” and the output terminal “E” using a conventional cable (see output terminals “D” and “E” in FIG. 1).

The versatility of the test device 1 is enhanced by a plurality of adapters 5, which have a configuration corresponding to various input contact configurations of different three-phase electric motors mounted on board the aircraft. The adapter 5 includes input contacts 10 and output contacts 20. The adapter 5 is connected to the input contacts 24 of the test device 1.

The essence of the invention is to provide a method and a set of equipment for testing power lines and signal transmission lines on board an aircraft, in particular, to verify the correct voltage and phase shift between the voltages applied to the power lines and signal lines that are connected to the input contacts of the three-phase electric motor. The test for the correct stress and phase shift can be performed using the test device 1, which shows the user that the applied voltage and phase shift are correct. Components, signal lines, contacts, etc., in other words, the electronic infrastructure or control logic, permanently installed on board the aircraft in front of the three-phase engine, are checked to make sure that during normal operation of the aircraft and therefore , of a three-phase electric motor, the correct voltages with the correct phase shift will be applied to the input contacts of the three-phase electric motor. Thus, the test device 1 allows you to measure the three-phase input signals supplied to various three-phase electric motors of the aircraft, and thereby ensures the correct functioning of the three-phase electric motor during operation of the aircraft. In addition, the test device 1 can also simulate the tripping of a thermal switch located in a three-phase motor to ensure safety.

Thus, the method and set of equipment according to the invention allows service or production personnel to simply and conveniently test the power lines and signal lines placed in front of various three-phase electric motors on board the aircraft for the correctness of the applied voltages and phase shift, without the need for manual testing of these lines power and signal lines.

Claims (7)

1. A method for testing power lines and signal lines on board an aircraft, said power lines and signal lines connecting a three-phase current consumer to an aircraft power system, wherein the three-phase current consumer has separate input contacts to which the three-phase consumer is operating during operation current on board the aircraft apply a predetermined voltage with a predetermined phase shift, including the stages in which:
connect power lines and signal lines with input contacts (24) of the test device (1) instead of a three-phase current consumer,
apply voltage to power lines,
voltage is checked using the test device (1) in order to determine whether the voltages applied to the power lines are equal to the predetermined voltage values,
carry out a phase check using the test device (1) at the same time as checking the voltages in order to determine whether the phase shift of the voltages applied to the power lines is equal to the predetermined phase shift value, and
provide automatic connection of the output contacts (25) of the test device (1) with the input contacts of the three-phase current consumer, if the voltages applied to the power lines are equal to the preset voltage values, and the phase shift of the voltages applied to the power lines is equal to the preset phase shift value , while using a test device (1) control the voltage and phase shift of the voltages applied to the input contacts of the consumer three-phase current. 2. The method according to claim 1, characterized in that, using a test device (1), the tripping of a thermal switch installed in a three-phase current consumer is simulated to protect said three-phase current consumer from overheating to ensure that the corresponding warning signal is received through the lines transmitting signals to an indicator showing a three-phase current consumer failure. 3. The method according to claim 1, characterized in that various adapters (5) are used to connect the contacts of the power lines and signal transmission lines having a different configuration with the input contacts (24) of the test device (1), while the contacts have a different configuration power lines and signal lines are connected to the input contacts of various three-phase current consumers on board the aircraft during operation of the aircraft. 4. The method according to claim 1, characterized in that the three-phase current consumer is selected from the group comprising a three-phase electric motor of an air conditioning system, an electric motor of an air recirculation system, an electric motor of a fuel pump or another consumer of a three-phase current. 5. A set of equipment comprising a test device (1) and a plurality of adapters (5) for connecting the contacts of power lines and signal lines on board an aircraft having a different configuration with the input contacts (24) of the test device (1), while the test device (1) contains:
output contacts (25),
means (30) for determining the correspondence of the voltages applied to the input contacts (24) of the test device (1) to predetermined voltage values,
means (30) for determining the correspondence of the phase shift of the voltages applied to the input contacts (24) of the test device (1) to a predetermined phase shift value, and
means (80) for automatically connecting the output contacts (25) of the test device (1) with the input contacts of the three-phase current consumer, if the voltages applied to the power lines are equal to the preset voltage values, and the phase shift of the voltages applied to the power lines is previously a given value of the phase shift, while the test device (1) is configured to control the voltage and phase shift of the voltages applied to the input contacts of the consumer three-phase current. 6. The kit according to claim 5, characterized in that the test device (1) is configured to determine a pre-set voltage value of 115 V. 7. A kit according to claim 5, characterized in that the test device (1) is configured to determine a predefined phase shift value of 120 °.

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