RU2441189C1 - Method for testing electric trigger of automatic guns and device for its realisation - Google Patents

Abstract

FIELD: electricity. ^ SUBSTANCE: method consists in measurement of rated current and voltage parameters with subsequent analysis of operability. The operability analysis is carried out simultaneously with performance of tests during generation of gun vibrations. The device comprises a unit of supply, a unit of rated current and voltage parameters measurement. The unit of rated current and voltage parameters measurement is connected by its inlet to the electric trigger, at the same time the gun is installed on a vibration-generating surface. ^ EFFECT: improved accuracy of automatic guns electric trigger operability analysis. ^ 5 cl, 4 dwg

Description

The claimed invention relates to the field of testing military equipment, in particular to the field of testing automatic guns with remote control firing, in particular to the field of testing automatic guns mounted on moving vehicles: armored vehicles, helicopters, ships.

There is a method of testing the operation of the electric trigger of an automatic gun mounted on a movable carrier, with a fixed, reduced supply voltage, which consists in measuring the current and voltage during the operation of the electric trigger, calculating the response time and further analysis of health.

A device is known for testing the possibility of firing single machine gun shots, which includes a power supply unit connected by an output to an electric trigger and a cable through the test mode enable unit. The unit for measuring the normalized current and voltage parameters is connected by an input to the test mode switching unit, and by an output to an oscilloscope (DE 10215910 A1 (RHEINMETALL LANDSYSTEME GMBH.), 10.30.2003 - prototype).

The known method and device for its implementation have disadvantages, which are as follows:

firstly, in the inaccuracy of measurements of normalized parameters due to distortion of signals in the test mode switching unit and power cable located between the electric start and the measurement unit of normalized current and voltage parameters; secondly, in the inaccuracy of measurements of normalized parameters due to the processing of data obtained on an oscilloscope manually by the operator; in addition, the time of the test is increased, which leads to increased energy consumption due to the analysis of the results after the tests, with negative readings of the test parameters are not interrupted. As well as the mismatch of the test conditions with the actual operating conditions, since the worst working conditions of the electric launch occur during the firing of the gun when the moving carrier moves. Vibrations during the movement of a mobile carrier differ from each other depending on the design and method of movement (by land, water, air).

The technical task of the invention is to eliminate the above disadvantages due to the fact that in the inventive method for testing the electric start of automatic guns, the performance analysis is performed simultaneously with the tests when generating the vibration of the gun, and the measurement of normalized parameters of current and voltage additionally introduced the measurement of vibration parameters corresponding to vibrations, arising from the movement of the mobile carrier.

The problem is also solved due to the fact that in the device for testing the electric start of automatic guns installed on a movable medium with a fixed supply voltage, including a power supply, a unit for measuring normalized current and voltage parameters, a unit for measuring normalized current and voltage parameters is connected the entrance to the electric trigger, and the gun is mounted on a vibrating surface.

In addition, a device for analyzing the operability and control and a circuit breaker of the device are additionally introduced into the device, and the unit for analyzing the operability and control is connected by an output to the circuit breaker, and by an input to the unit for measuring normalized current and voltage parameters.

The gun is mounted on a vibrating surface. When installed on a vibrating stand, a vibration measuring sensor is additionally introduced into the device, connected to the electric start by an input and to an operability and control analysis unit, and the vibration parameters generated by the vibrating stand correspond to the vibration parameters that occur when the movable carrier moves.

This will increase the accuracy of parameter measurements by eliminating distortion of signals in the power supply and power cable, increase the accuracy of measurements of normalized parameters due to the processing of the received data automatically, without operator intervention, reduce test time and power consumption due to automatic stand stop until the end of the test in case of non-compliance of the measured parameters with the normative, increase the reliability of the tests due to the compliance of the measured current, voltage and vibration parameters with the actual conditions spluatatsii as tests are carried out under the worst operating conditions guns, ie when simulating the movement of a movable carrier, the compliance of the measured parameters with the actual operating conditions, since the tests are carried out when simulating the vibration of a movable carrier, depending on its design and method of movement.

This test method is performed automatically, without operator intervention. The proposed method was tested electric trigger automatic guns 2A72, designed for installation on a combat vehicle BMP-3. When vibrations were generated both from the floor (acceptance tests) and from the vibration stand (periodic tests), an additional number of electrical start failures were revealed, which made it possible to more reliably reject low-quality products and eliminate additional hidden manufacturing defects.

A device for testing the operation of the electric trigger gun is illustrated by drawings, where figure 1 shows a block diagram of a device; figure 2 shows a wiring diagram of a specific implementation of the device; figure 3 shows a device for testing the operation of the electric trigger gun mounted on a vibrating surface, figure 4 is a device mounted on a vibration stand.

The device for testing the electric start (Fig. 2) includes the electric start 1 of the gun 2, which is an electromagnet connected through the power cable 3 to the output of the test mode switching unit 4, which in turn is connected to the output of the power supply unit 5. On block 4 of the inclusion of the test mode, the order and number of starts of the electric start 1 in accordance with a given program. The electrical trigger 1 is also connected to the input of the unit 6 measurements of normalized parameters of current and voltage, which is connected with the output unit 7 analysis of health and control. Unit 7 analysis of health and output control is associated with a printing device 8 and a circuit breaker 9, capable of disconnecting the unit 4 for switching the test mode from the power unit 5. The sensor 10 for measuring vibration is connected by the input to the fixed parts of the electric start 1 of the gun 2, and by the output to the unit 7 of the analysis of performance and control. The gun 2 is mounted on a vibrating surface 11 (FIG. 3) or on a vibrating stand 12 (FIG. 4). The vibrations programmed to be generated by the vibrating stand 12 are recorded and modeled during the movement of the movable carrier on which the gun 2 will be mounted.

The device operates as follows. The power supply unit 5 supplies a fixed reduced supply voltage to the mode enable unit 4, which, through the power cable 3, turns on and off the electric start 1 in accordance with the test program. Block 6 measurements of normalized parameters of current and voltage registers the parameters of current and voltage, then passes them to block 7 analysis of health and control. Block 7 analysis of health and control compares the readings with the normative. In the event that the readings are outside the permissible values, he sends a signal to the circuit breaker 9, which disconnects the power supply unit 5 from the electric start 1, stopping the tests. After testing, the unit 7 analysis of health and control transmits the result of the analysis to the printing device 8, which prints the test report. In the case of carrying out a large volume of tests (acceptance tests), the generation of vibrations under the gun is created on the vibration-generating surface 10 from industrial equipment installed near the test site, for example dies and presses, mechanical sections. The vibrations of the vibrating surface 10 increase when the test is transferred to a room located above the first floor. When conducting a small volume of tests (typical or periodic), the gun 2 is mounted on the vibrating stand 11 and the vibration is modeled in accordance with the vibration parameters arising from the movement of the movable carrier. The normalized vibration parameters are recorded directly from the type of specific movable carrier on which the test gun will be installed, for example, BMP-3 armored personnel carrier. The sensor 10 measurements of vibrations registers vibration parameters and transmits them to the unit 7 analysis of health and control. If the vibration parameters do not conform to the normalized ones, the health analysis and control unit 7 sends a signal to the circuit breaker 9, which disconnects the power supply unit 5 from the electric start 1 and stops the tests.

The power-on enable mode block is based on a computer time relay. The block of measurements of normalized indicators was made on the basis of an ammeter, voltmeter and a computer timer. The health analysis and control unit consists of a threshold unit (operational amplifier 140UD6) and a microprocessor. A vibrating stand of the VEDS-400 type was installed. The vibration measurement sensor is made in the form of a DN-3 piezoelectric transducer. The power supply is based on a VAKS-1-30 power source. The power supply circuit breaker is designed as a VK-1 circuit breaker. The printing device is a printer.

Claims (5)

1. A method for testing the electric start of automatic guns mounted on a movable carrier at a fixed supply voltage, including measuring normalized current and voltage parameters with a further analysis of operability, characterized in that the operability analysis is performed simultaneously with testing when generating a gun’s vibration. 2. The method according to claim 1, characterized in that in the measurements of the normalized parameters of current and voltage, measurement of vibration parameters corresponding to vibrations during movement of the movable carrier is additionally introduced. 3. A device for testing the operation of the electric start of automatic guns mounted on a movable medium with a fixed supply voltage, including a power supply unit, a unit for measuring normalized current and voltage parameters, characterized in that the unit for measuring normalized current and voltage parameters is connected to the electric start input, while the gun is mounted on a vibrating surface. 4. The device according to claim 3, characterized in that it additionally includes a unit for analyzing the health and control and the circuit breaker of the device, and the unit for analyzing the health and control is connected by an output to the circuit breaker, and by an input to the unit for measuring normalized current and voltage parameters. 5. The device according to claim 4, characterized in that the gun is mounted on a vibrating stand, and a vibration measuring sensor is added to the device, connected to the input to the electric trigger, and to the output of the health and control analysis unit, and the vibration parameters generated by the vibrating stand correspond to vibration parameters arising from the movement of the movable medium.

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