SU476372A1 - Pump performance regulator - Google Patents

Description

This invention relates to pressure adjustable pumps used as pressure sources in aircraft hydraulic systems.

The performance controllers of aircraft pumps are known, which contain a servo cylinder, which changes the angle of inclination of the swing assembly, and a servo cylinder that controls the servo cylinder and is designed as a spool mechanism.

Such regulators have a rather complicated structure, including expensive to produce high-precision spool pairs, subjected to mechanical wear during their operation.

The proposed pump performance regulator differs from those known in that, in order to simplify the construction therein, the control unit is made in the form of a jet element with an inclined output channel connected to the servo cylinder cavity, and power and control channels, the first of which This choke, and the second through a variable connected to the output channel of the pump.

FIG. 1 is a schematic diagram of the pump with the proposed performance controller; in fig. 2 - variable choke; in fig. 3 is a section along A-A in FIG. 2

The regulator consists of a control unit and a servo cylinder.

The control unit includes a housing 1, an inkjet element 2 with a discharge chamber 3, a power channel 4, a control channel 5 and an output channel 6; a fixed orifice type choke 7, installed at the entrance to the feed channel, and a variable choke 8, installed at the entrance to the control channel.

The channels of the jet element are made in the form of conical sonles, whose axes lie in one plane and intersect at one point. The axes of the feed and control channels are located at a right angle, and the axis of the output channel is inclined with respect to the axis of the feed channel. The output channel of the jet element is connected to the cavity of the servo cylinder, and the supply and control channels are connected to the output channel of the pump.

The variable choke is made in the form of a round plate made of spring steel with a round hole in the center and a cross-shaped slit forming four elastic lobes symmetrical with respect to the center of the plate.

The output pressure of the inkjet element is used to control the servo cylinder, which consists of a fixed rod 9, a movable cylinder body 10 and a spring I. The cylinder body changes its angle of inclination at the swivel assembly 12, which causes a change in pump performance.

During operation of consumers, the pressure in the pump outlet channel does not exceed its nominal value, and the liquid jet flowing out from the feed channel of the jet element does not enter the outlet channel. At the same time, the spring 11 keeps the servo cylinder in the extreme right position, corresponding to the maximum pump capacity.

By reducing the flow rate of the liquid going to the work of consumers, the pressure in the output channel of the pump increases. At the same time, the flow area of the variable throttle 8 due to the deflection of the elastic lobes under the action of increasing pressure increases. As a result, the energy of the jet flowing out of the control channel increases, depending on the pressure in the pump outlet channel, to a greater extent than the energy of the jet flowing out of the supply channel, which leads to the latter deviation towards the output channel. When struck on the cutoff of the output channel, the jet slows down, and its kinetic energy transforms into potential energy of pressure.

As a result, the pressure in the output channel of the jet element and the cavity connected to it increases and the servo cylinder, compressing the spring, moves to the left, which leads to a decrease in the angle of inclination of the swing unit and pump performance,

When all consumers are completely disconnected, the pressure in the pump outlet channel reaches its maximum value at which the servo-cylinder switches the pump to the minimum capacity required to cool the pump and power the regulator.

When consumers turn on, the pressure in the pump outlet channel decreases, and due to the presence of a variable throttle, the jet rotates from the outlet channel towards the axis of the supply channel, which leads to a decrease in pressure in the cavity of the servo cylinder, which is moved to the right under the influence of the spring, increasing him pump performance.

Subject invention

A pump performance regulator comprising a servo cylinder associated with a swing assembly and a control assembly, characterized in that, in order to simplify the design of the controller, the control assembly is designed as an inkjet element with an inclined output channel connected to the servo cylinder cavity, and power supply and control channels, the first of which is connected via a constant choke, and the second through a variable choke is connected to the output channel of the pump.

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