SU1086233A1 - Pump hydraulic unloading device - Google Patents

Abstract

HYDRAULIC UNLOADING DEVICE OF A PUMP containing an axial slit, ptu, resistor made of elastic material with grooves forming a discharge chamber connected with an axial slit, characterized in that, in order to increase reliability by adjusting the volume of the discharge chamber, the substandard is shaped as a spiral spring rigidly fixed to the peripheral end, and the spring has at least one radial protrusion. (L with qOt / ff.f

Description

The invention relates to pump engineering and can be used in centrifugal pumps for unloading from axial forces acting on impellers.

A hydraulic unloading device of a centrifugal pump is known, containing a fifth and a bottom plate, on which a spiral groove ij is formed.

A disadvantage of the known construction is the low reliability due to the need for a small face gap to reduce volume losses, which leads to scuffing.

The closest in technical essence and the achieved result to the proposed) P51etts hydraulic unloading device of the pump, containing an axial slit, a tuft, a resist of elastic material with grooves, forming an unloading; amer, coo6ii-fei f yio with an axial slit 2.

The lack of this design is a low reliability due to the pressure of the unloading chamber; o1 of the camera of an extremely rigid and strictly defined volume, which, when changing the operating mode (the pump operation key does not allow to change the discharge force. As a result, na scuff them.

Purpose of the invention is the reliability of the pump by adjusting the volume; unloading to; .merry change its diameter. .

The command line is achieved due to the fact that in a hydraulic unloading device: i; i.ococa, containing an axial slit, and that, a pod of elastic material with grooves forming the unloading chamber in communication with the axial slit. t ik m 1 wave in the form of a coil spring,.; :: with ". it is fixed from the peripheral end. A spring has at least one radial protrusion.

Wah FIG. 1 st) hydraulic unloading device, cut; in fig. 2 shows a section A - A of FIG. one.

The device co. P., Has an axial gap I, ptu 2, a matte 3 made of an elastic material with grooves 4, forming a discharge chamber 5. A pointer 3, connected to the axial slot 1, is made in the form of a spiral; rigidly fixed from the first end 7, and the spring 6 has radial protrusions 8, which are shifted in the radial direction in the adjacent turns of the spiral. The discharge chamber 5 with an axial slit 1 is connected to. High pressure pump 9. For receiving a throttling fluid, there is a low pressure cavity 10. The flange 2 with the face surface 1 of the spring 6 forms an annular throttling slit 12.

The device works as follows.

The fluid from the cavity 9 enters through the axial throttling gap into the discharge chamber 5, from where it passes under pressure through the annular throttling slot 12 and out into the cavity 10 of low

pressure, thereby ensuring the hydraulic balancing of the axial forces.

With an increase in the speed of rotation of the rotor, the coil spring b under the action of the pressure of the fluid, decreasing along the slit 12. and collapsing from the disk friction

the liquid in the discharge chamber 5 begins to unwind. The width of the grooves 4 decreases, and the peripheral radius of the discharge chamber 5 increases. This leads to increased resistance to movement.

fluids in the gap 2 and an increase in the area of the discharge chamber 5, and therefore to increase the pressure in it and increase the rigidity of the discharge device without reducing the Bej H4HHb of the end gap in the throttling gap 12.

The coil spring 6 is unwound until the protrusions 8 form bridges in the grooves 4. The bridges contribute to a reduction in the spin in the grooves 4. This leads to a decrease in the centrifugal forces acting on the liquid in

grooves 4, which is equivalent to an additional increase in resistance of bushes shell 12, accompanied by an increase in its size. To prevent the free flow of fluid along the projections 8

shifted relative to each other in the radial direction.

The use of such an unloading device will minimize the volume losses, increase the reliability of the device by eliminating, with possible changes in the axial force, excessive reduction of the end gap, which may lead to tearing during operation, and thus increase the cost-effectiveness and service life of the pump.

FIG. 2

Claims (1)

A HYDRAULIC UNLOADING PUMP DEVICE, comprising an axial slot, a heel, a thrust bearing made of elastic material with grooves forming a discharge chamber in communication with the axial gap, characterized in that, in order to increase reliability by adjusting the volume of the unloading chamber, the thrust bearing is made in the form of a spiral spring, rigidly fixed from the peripheral end, the spring having at least one radial protrusion.