SU390303A1 - Hydraulic pump - Google Patents

Description

one

The well-known centrifugal pump, in the case of which an impeller is installed with a lap, forming a centrifugal canals, a double action multiplier unit with horizontal pipes located axially around the impeller and a stationary paddle between the impeller and the multiplier block has a relatively low ratio. dd

In the proposed hydraulic pump for higher efficiency. the impeller has at least .two paddle circuits, in each of which, along with the vanes forming the centrifugal channels, there are vanes forming the centripetal channels, the inputs of which are in communication with the non-movable blade apparatus, and the outputs are connected via transition channels with entrances to centrifugal channels.

FIG. 1 shows a pump diagram; on f: ig. 2 is a diagram of a pump vane system; in fig. 3 - scan the outer surface of the impeller.

The pump consists of a housing /, a block of 2 multipliers, an impeller 3, a stationary blade apparatus 4, a check valve system 5 and a seal 6.

The block 2 multipliers. Includes a block of 7 cylinders, having the form of a ring with axial evenly spaced

circumferentially cylindrical bores 8, and stepped pistons 9 installed in bores 8 of block. cylinders.

The stationary blade unit 4 is a system of blades 10 rigidly connected to the pump casing. The blades 10 terminate radpally to form the input cavities // multipliers. Each blade has two sections: input 12 and output 13. The input sections of the blades form a system of blade channels 14 of the apparatus 4 connected to the outer {cylindrical surface of the impeller 3. The angles of entry of the tube a; out of the impeller. The blades are shaped to allow for smooth change in speed.

The output areas of the blades form a system of channels 15 of the apparatus 4, which is also connected to the outer surface of the impeller 3.

In the example shown in FIG. 2 variant of the blade system, the input sections of the blades 10 are directed radially, which provides the minimum absolute velocity of the fluid at the entrance to the impeller and the desired speed of the multiplier. Other angles of inclination of the guide vanes are possible.

The impeller is a monoblock, supported by bearings, and contains at least two paddle circuits 16. and 17, each of which has an axially spaced 1B axial direction on the outer surface — centripetal 18 and centrifugal 19 blade channels interconnected 20, made in the body of the impeller, and the channels 18 are connected to the channels 15 of the apparatus 4, and the channels 19 to the channels 14.

The cavities of the blade channels are located on the outer 1 cylinder core surface of the impeller in chess order, alternating with sections 21 impermeable to liquid, with the cavities of the centrifugal 19 and centripetal 18 blade channels on the outer cylindrical surface of the impeller relative to each other also staggered order (fig. 3).

Centrifugal blade channels 19 with the help of channels 22 (which can be blades) are connected to the central bore 23 of the impeller connected to the inlet of the working fluid in the pump. Due to the fact that the direction of fluid flow in channels 18 and 19 is opposite, the blade channels 18 have reverse curvature with respect to the blade-channels 19, i.e., are centripetal.

When the impeller 3 rotates, the liquid enters the central opening 23 of the impeller and then through channels 22 to the entrance to the channels 19 of both circuits, which simultaneously receive liquid from the centrifugal blade channels 18.; As a result of interaction with the blade system of channels 19, which They are channels of a centrifugal pump, fluid receives an increment of energy, and under pressure enters channels 14 of the guiding apparatus 4.

In a guide vane, a fluid having a tangential component of the absolute velocity smoothly changes the direction of the velocity to radial and then to axial. Due to the decrease in velocity, a part of the kinetic energy of the fluid is converted into pressure. From the guide apparatus, the pressurized fluid enters the input cavities of the multipliers and, acting on the pistons, I moves them in the direction of their motion. Pistons - press liquid through channels 15 at the entrance to the centrifugal channels 18 of the impeller.

In connection with the axial location on the outer surface of the working shaft, centrifugal and centripetal blade channels alternate with areas impermeable to the working fluid, when the pump is in operation, a differential pressure field that rotates with the angular velocity of the working wheel and acting on the multipliers and pistons causing them is a reciprocating movement. The movement of the multipliers provides the supply of liquid under pressure to the output cavity of the pump, while the distribution of the liquid is carried out using check valves 5.

Subject invention

The hydraulic pump, in the case of which an impeller with blades forming centrifugal channels is installed, a double-action multiplicator unit with axially arranged forces around the impeller and a fixed vane device between the impeller and multiplier assembly, characterized in order to increase the efficiency ratio. d. pump, the slave – wheel has at least two paddle circuits, in each of which, along with the paddles forming the centrifugal channels, there are paddles forming the centripetal channels, the inputs of which are connected to the fixed blade apparatus and the outlets are connected by means of transition channels

with entrances to centrifugal channels.

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