SU491972A1 - Device for pressure signaling in hydraulic systems - Google Patents

Description

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The invention relates to the field of automatic signaling, in particular for monitoring the dynamic state of liquid media.

A device for pressure signaling in hydraulic systems is known, which contains acoustic transducers with radiators and receivers of ultrasonic oscillations installed on hydraulic pipelines, a generator, the output of which is connected via a delay element to a driver, and an amplifier.

Its disadvantage is: either the lack of control efficiency and the structural complexity of the hardware implementation during stationary monitoring of hydraulic systems, since this requires several, in terms of the number of branching of the hydraulic system, such devices, which makes it difficult to use them in aircraft systems, and pipeline to another dramatically reduces the efficiency of control, since it requires suP1, of a natural time; or the low speed associated with the low switching frequency of the relay contacts, as well as the low resolution of the analog trigger block and the amplitude discriminator due to the smallness of the absolute value of the output signal when the hydraulic system operates at reduced pressures.

The proposed device for a similar purpose differs from the known one in that

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An additional driver, a coincidence element, threshold elements, a switch and a transformer blocking generator with an additional transformer winding are introduced into it, and the generator is connected through the first section of the switch with a corresponding emitter of an acoustic transducer, the corresponding receiver of which is connected through the second section of the switch to the amplifier input, the output of which is through an additional The driver is connected to one of the inputs of the match element, the other input of which is connected to the output shaper, a coincidence output member connected to the first threshold element connected to the transistor collector and one end of an additional transformer winding of the blocking oscillator, which soednnen other end with a second threshold element connected through a third switch section with a display unit.

This allows to increase the reliability of the device.

A diagram of a device for signaling pressure in hydraulic systems is shown in the drawing and contains acoustic transducers with radiators li-1 "and ultrasonic oscillation receivers 2i-2, mounted on pipelines 3i-3p of the hydraulic system, generator 4, delay element 5, driver 6, coincidence element 7, additional driver 8, amplifier 9, first threshold element 10, second threshold element 11, transformer blocking-heater 12 with transformer 13, additional winding 14 of transformer, transistor 15 and diode 16, com utator 17 to the first section 18, second section 19 and third section 20 and the display unit 21.

The pulses of the generator 4 through the delay element 5, the former 6, generate reference pulses arriving at one of the inputs of the matching element 7. In addition, from the output of the same generator 4, through the first section 18 of the switch 17, energizing electric pulses are sent to the emitters li-In converters, which emit pulses alternately in the pipelines 3i-Zn hydraulic system. Ultrasonic pulses transmitted through pipelines through a liquid are applied on the opposite side of each pipeline by receivers and converted into electrical pulse signals, which, through amplifier 9, flow into an additional driver 8 connected to another input of the coincidence element 7.

Under the influence of rectangular reference pulses of the coincidence element 7 and signal pulses from the additional shaper 8, the coincidence element produces rectangular pulses whose duration is equal to the time interval between the leading edges of the pulses arriving at its inputs and, accordingly, the pressure in the pipeline.

The delay in block 5 is set to such a value that it is equal to the time of ultrasound propagation through the pipeline in the absence of pressure. Due to this, in the absence of pressure or in the absence of liquid in any of the pipelines during switching on of the converter of this pipeline, for example li-1 ", there is no pulse voltage. It will appear only if there is pressure in this or another pipeline.

From the output of the coincidence element 7, positive polarity pulses through the first threshold element 10 are fed to the collector of the transistor 15 of the transformer blocking generator 12 connected to the power source 22. Under the influence of the starting pulse in the blocking geirarator, the collector winding of the pulse transformer 13 is grounded and shunted by a damper diode 16, a positive rectangular pulse with a duration of 0.1-0.2 times the period of the excitation pulses of the generator 4 is generated. momenta coming from the step-up coil 14 by a second threshold element 11 is connected to the input of the third section 20 ko.mmutatora 17, manufactured charge 23i-23 "capacitor connected to this switch outputs. If there is pressure in any pipelines, the corresponding capacitors are charged to a certain voltage, for example, 80 V. Neon 24i-24 "light bulbs are ignited by this voltage, the connected resistors 25i-25n.

to the outputs of the third section 20 of the switch. If the pressure of the bulb is hot, if the pressure disappears in any of the pipelines or when the fluid leaks from it, there is no coincidence at the output of the element

and the corresponding indicator light goes out.

Similarly, by appropriately setting the time delay value in block 5, this device can be used and

to control the excess pressure beyond a certain predetermined limit value thereof.

Claims (1)

Invention Formula Pressure alarm device in hydraulic systems, containing acoustic transducers with radiators and receivers of ultrasonic vibrations, installed on hydraulic pipelines, a generator, the output of which is connected to a driver via an element of delay and an amplifier, characterized in that, in order to increase the reliability of the device, an additional driver is introduced into it, state element, threshold elements, switch and transformer blocking generator with an additional transformer winding, the generator being connected via the first switch section with a corresponding acoustic transmitter driver, the corresponding receiver of which is connected through the second switch section to the amplifier input, the output of which is connected via an additional driver to one of the matches element inputs, the other input connected to the output of the imager, and the output of the coincidence element is connected to the first threshold element connected to by the collector of the transistor and by one end of the additional transformer winding of the blocking generator, the other end of which is connected to the second threshold element connected through the third section of the switch with the indicator unit. sh