SU1047522A1 - Hydraulic cyclone - Google Patents

Abstract

A HYDROCYCLONE containing a cylinder-conical chamber connected to the pump suction line with a tangential inlet, drain and Peskov nozzles, a hydraulic elevator with a device for its start and connected to it and the discharge line of the pump pneumohydroaccumulator, characterized in that, in order to reduce the flow rate pulsations, the hydraulic accumulator, in order to reduce the flow rate pulsation, and the pressure accumulator, in order to reduce the flow rate pulsations, a hydraulic accumulator is equipped with a pump; pump lines, it is equipped with a storage bin with a spring-loaded diaphragm located in its lower part on the rod, kinematically connected with a device for starting a hydraulic elevator, a check valve Mounted on the flowline hydraulic elevator and interacting with it and with spring-loaded membrane lever rod, wherein the output end of sand nozzle disposed in the upper part bunkeranakopitel.

Description

The invention relates to devices for the accumulation of - nanos with periodical or automatic propelling them when separating the abrasive particles contained in water by an anti-cyclone pump installation. The hydrocyclone is known, which contains a cylindonic housing with a thermal branch pipe of the initial medium, a drain branch pipe with a hydroellator, a sand branch pipe, and an automatic washing device of a pulsed action. The latter contains pneumohydroaccumulators and membranes mounted on a rod, the lower end of which is equipped with an electromagnet amplifier connected to a pressure sensor and placed in a sandy pipe of a hydrocyclone l. However, in-it produces a forced period of 11 washing out sediments from the conical, part of the hydrocyclone directly from the pressure line of the pump. This leads to periodic pulsations of the flow rate and pressure in the pressure line of the pump (beyond the water extraction point to the washer), which negatively affects the technological process, for example, when servicing a pulse sprinkler system operating on the differential pressure signal. due to the small volume of the conical part of the hydrocyclone (the sediments accumulate no more than 1/3 of the cone), the cyclicality and the flow rate increase. At the same time, the dynamics, movement of the two-phase fluid at the apexes of the cone, its continuity are disturbed. The closest to the proposed technical essence and the achieved result is a hydrocyclone containing a cylinder-conical chamber connected to the suction line of the pump, with a tangential inlet, drain and sand pipe, hydraulic elevator and connected to it and to the pressure line of the pneumohydroac pump; The NyoDoost humulator: the current of a known hydrocyclone is that the input signal for triggering the hydraulic elevator start-up device is a pressure varying when the condensation chamber is filled, which is determined not only by the weight (volume) of sediment accumulated in it, but by their fractional composition For coarse-grained sediment fractions, the decrease in dilution in the thickening chamber HacTsmats is significantly greater than in the fine-grained filling fractions of the condensation chamber due to the greater porosity accumulated. the volume of nano-sov and the rarefaction of a hydrocyclone does not spread through it. This disrupts the dynamics of the movement of the two-phase fluid at the kershin of the hydrocyclone cone. The purpose of the invention is to reduce. ripple flow and head in the output line of the pump. The goal is achieved by the fact that a hydrocyclone containing a cylinder-conical chamber connected to the suction-line of a pump with a tangential inlet, drainage and sand outlet pipes, a hydraulic elevator with a device for starting it and connected to it and with a pressure line; pump pneumohydroaccumulator, equipped with a storage bin with an inline spherical membrane placed in its lower part on the rod, connected to a device for starting a hydraulic elevator, a return valve (with a nanometer installed on the discharge pipe of the hydraulic elevator, and interacting with the spring of the membrane and spring rod lever, while the output end of the sand pipe is located in the upper-upper part of the bunker, the fla drawing schematically shows a hydrocyclone, a general view.The hydrocyclone consists of a cylindrical conical RL 1 with a tangential inlet 2 connected to the suction line of the pump 3. The pressure line 4 is connected through a throttled valve 5 with a pneumohydroaccum accumulator 7 through the throttled valve 5, and the latter through a pipe 8, non-return valve 9 and the discharge pipe 10 - with the hydraulic silo ii. At the output end of the sand branch pipe 12, a storage hopper 13 is installed. The bottom of the storage hopper is made of a movable diaphragm 14 connected by means of a spring 16 mounted on the push rod 15, and by means of a lever 17 and spring 18 9. For apani atmosphere maintaining separation is check valve 19. The hydrocyclone operates as follows. The two-phase fluid through the suction line of the pump 3 enters through the tangential inlet 2 into the cylindrical chamber 1, where it is separated by centrifugal forces. Purified water is sucked off by pump 3 and enters the pressure line 4. With the valve 5 open, connecting pipe b to the pressure line of the pump, part of the purified liquid enters pneumoaccumulator 7, where, accumulating, forms, at the top, an airbag. The lower part of the pneumohydroaccumulator with pipe 8 is connected to a check valve 9, which separates the pressure pipeline 10 of the hydraulic elevator I from

pneumohydroaccumulator 7. In this position, the pneumohydroaccumulator is activated and waits for a signal from. valve cover ,,

The opening of the valve is as follows.

The rotation phase, having made a helical motion along the wall of the cylindrical conical chamber 1, is directed to the sand nozzle 12 and falls into the storage hopper 13.

As the pumps accumulate, the membrane 14 deflects downward, overcoming the elasticity of the spring 16. At the same time, the pin 15 is lowered and acts. on the lever 17 with a spring 18, which; opens the check valve 9. Splash of accumulated fluid occurs

from the pneumohydroaccumulator 7 through the pipeline 8, the open valve 9 and the pressure line 10 of the hydraulic elevator 11. The check valve 19 is opened and the accumulated sediments are ejected by a hydraulic elevator. After the suction of the nanosecond, the membrane 14 rises upwards due to the elasticity of the spring 16, closes the check valves 9 and 19. Then the cycle repeats. /

0

Thus, due to the presence of feedback between the storage bin and the cavity of the pneumohydroaccumulator, the pneumohydroaccumulator of the pneumohydroaccumulator is switched off after washing, which leads to a decrease.

5 ripple flow and head in the output line of the pump.

Claims (1)

A HYDROCYCLONE containing a cylinder-conical chamber connected to the suction line of the pump with tangential * inlet, drain and sand nozzles, a hydraulic elevator with a device for starting it and a pneumatic accumulator connected to it and the pressure line of the pump, which means that, in order to reduce flow pulsations and pressure in the outlet line of the pump, it is equipped with a storage hopper with a spring-loaded membrane located in its lower part on the rod kinematically connected to the device for starting the hydraulic elevator, a check valve, A spring-loaded lever mounted on the pressure pipe of the hydraulic elevator and interacting with it and with the stem of the membrane, while the output end of the sand pipe is placed in the upper part of the hopper-® drive. / TWDT'ns ί '1047522