RU2639454C2 - Device for dynamic pressure increase with function for smoothing pulsations of hydraulic liquid - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: device comprises a hydraulic pump 3 connected by its output to a hydraulic distributor unit 5, in its turn the hydraulic distributor unit 5 connected to inputs and outputs of hydraulic transformers 1 and 2 through the lines of high, increased and low pressure. In hydraulic transformers 1, 2 sensors 8 and 9 are connected to a control unit 7, respectively. The output of hydraulic stabiliser 4 is suitable to the high-pressure line connected by its input to compressed gas cylinder 6.

EFFECT: increased operation stability in both closed and open hydraulic systems, reduced level of hydraulic liquid pulsations with expanded range of delivered pressure.

1 dwg

Description

The invention relates to aviation ground technology, in particular to ground means for providing hydraulic energy.

The known analog pump hydraulic installation in the description of copyright certificate No. 133392, IPC F15B 15/18, from 05/05/85, publ. 08.30.87, containing two double-acting pneumatic piston hydraulic pumps, each made in the form of a three-section cylinder, the pistons of the sections of which are connected by a common rod, the hydraulic cavities are communicated by their exits through ballast equipment with a source of working fluid and a pressure hydraulic line, and the pneumatic drive cavities of each hydraulic pump through a two-position reversible distributor is connected to the source of pneumatic pressure and the atmosphere, and the middle section of the three-section cylinder is equipped in its middle with two I bends, each of which is connected to one of the control cavities of the reversing distributor of the other hydraulic actuator.

Disadvantages: the inability to work in closed hydraulic systems, sharp pressure pulses at the moment of closing the channels of controlled non-return valves violate the pressure stability of the pump unit, which does not allow for water supply in conditions at pressures up to 35 MPa in modern aircraft.

Closest to the claimed device is a hydraulic pump unit in the description of the copyright certificate No. 1740810, IPC F15B 15/18, from 20.11.89, publ. 06/15/92, containing two double-acting pneumatic actuator multipliers, made in the form of a three-section cylinder, the pistons of the sections of which are connected by a common rod, pneumatic cavities are connected with the outputs of reversible on-off pneumatic valves with hydraulic control, the hydraulic cavities of the middle sections of the multiplier cylinders are communicated with their outputs through controlled check valves with drain valves installation tank, through non-return hydraulic valves with a pressure line and directly each with one of the valve inputs of the indicated multiples ikators.

Disadvantages: the inability to work in closed hydraulic systems, sharp pressure pulses at the moment of closing the channels of controlled non-return valves violate the pressure stability of the pump unit, which does not allow for water supply in conditions at pressures up to 35 MPa in modern aircraft.

The technical result is the provision of the possibility of working both in closed and open hydraulic systems, reducing the level of pulsations of the hydraulic fluid, increasing the stability of the work and expanding the range of the issued pressure.

The technical result in a device for dynamic pressure increase with the function of smoothing pulsations of a hydraulic fluid, comprising a hydraulic pump connected to a pressure line, a suction line and fittings for connecting to the side valves of the discharge and discharge lines of the aircraft hydraulic system, is achieved by the fact that the claimed device is additionally equipped with two torque converters connected through a piping system with high, high and low highways pressure, one pressure stabilizer, control unit with sensors, valve block, consisting of two three-line and two two-line valves. This allows you to increase the pressure to the value that is required for modern aircraft (up to 35 MPa).

The presence of essential features distinctive from the prototype allows us to recognize the claimed technical solution as new.

The prior art does not reveal technical solutions containing features that match the distinctive features of the claimed device, therefore, it meets the criteria of an inventive step.

The possibility of implementing the claimed invention in industry allows us to recognize it as meeting the criterion of industrial applicability.

The essence of the claimed technical solution is illustrated by the drawing, where the figure shows a schematic representation of this device.

The device contains a hydraulic pump 3 connected to its outlet with the block of valves 5, in turn, the block of valves 5 through the high, high and low pressure lines connects the inputs and outputs of the torque converters 1 and 2. In the torque converters 1, 2 sensors 8 and 9 are installed, connected with control unit 7. The output of the hydraulic stabilizer 4 is connected to the high-pressure line, connected by its inlet to a cylinder 6 with compressed gas.

The device operates as follows.

When you turn on the device, the hydraulic pump 3 delivers fluid through the block of control valves 5 to the line of high pressure. When the valve block 5 is in the left position (for example) in the torque converter 2, the process of “recharging” takes place, the piston moves down to the dead point until the upper high pressure cylinder is completely filled with hydraulic fluid. At this time, the piston of the torque converter 1 performs the work of pumping the hydraulic fluid into the high pressure line, creating the necessary pressure increase. When the piston reaches the top dead center in the torque converter 1, the sensor 8 is triggered, as a result of which a signal is generated in the control unit 7 and the valve block 5 is switched over. At the same time, the hydraulic stabilizer 4 is connected to one output with a compressed gas cylinder 6, and the second output to a high line pressure, compensates for pressure drops that can occur during switching of the valve block 5 from the left to the right and, accordingly, vice versa. Next, the process of "recharging" in the torque converter 1. At this time, the piston of the torque converter 2 performs the work of forcing the hydraulic fluid into the high pressure line, creating the necessary pressure increase. After that, the sensor 9 is triggered, sending a signal to the control unit 7, which switches the valve control unit 5 back to the left position, and the cycle of operation of the torque converters 1 and 2, hydraulic stabilizer 4, valve control unit 5, and also the valve control unit is repeated.

Claims (1)

A device for dynamically increasing pressure with the function of smoothing pulsations of a hydraulic fluid, comprising a hydraulic pump connected to a pressure line, a suction line and fittings for connecting to the side valves of the discharge and discharge lines of the aircraft hydraulic system, characterized in that the device for dynamically increasing the pressure the function of smoothing pulsations of the hydraulic fluid is additionally equipped with two torque converters connected through systems pipelines with high, high and low pressure pipelines, one pressure stabilizer, a control unit with sensors, a control valve unit consisting of two three-line and two two-line valves.

Images