SU1558432A1 - Filter - Google Patents

Abstract

The invention can be used to purify a liquid, preferably irrigation water in irrigation systems. The purpose of the invention is to prevent technological emissions of suspensions into the consumer's network when back-flushing the filter element is carried out and increasing the washing efficiency without increasing the washing water consumption. The filter includes a housing, inlet and outlet nozzles, a filtering element, a washing device, shut-off control valves, a two-way hydraulic actuator with a four-way valve, a filtering element connected to the hydraulic actuator rod into a single cylindrical screen, a washing device made in the form of a filter fixed in the filter housing on bearings of a flat rotor, which is equipped with non-return valves on planes, and slit-like holes are made along the spans forming its body; -crystal lock is moved to a receiving chamber in which the rotor is mounted struenapravl yuschy rotational drive apparatus and the check valve. In addition, the inlet and outlet nozzles are connected by a four-way valve with a sector-type sprinkler, and the outlet nozzle is additionally equipped with an after-flow filter, the flow sensor of which is connected to the four-way valve actuators and the crane. 3 il.

Description

A flat slotted rotor 8 is mounted on the bearings 7 and provided with non-return valves 9a along the rotation-forming body forming planes 10 on the planes. A part of the rotor is placed into the receiving chamber 12 by means of a hydraulic lock 11, in which a jetting device is installed on the rotor 8 The rotation actuator 13 and the check valve I. The inlet 15 and outlet 16 filter nozzles are interconnected by a four-way valve 17 and a sector-type sprinkler 18, and the outlet 16 is equipped with a flow regulator 9 waste after SEB, which flow sensor 20 by control unit 21 fipt pa and line 22 is connected to the communication privo- 2k rows 23 and four-way valve 3 and the tap 17.

The filter works as follows. The actuator 23 of the four-way valve 3 provides, through the stem 4 of the hydraulic actuator 2, the compression of the filter element 5 into a single filter screen b. At the same time, the valve 17 by means of the actuator 2k supplies the raw liquid through the receiving chamber 12, the check valves 14 and 9 of the flat rotor 8 to the filter screen 6 "The contaminated liquid moves through the gaps of the filter element 5. The dimensions of the gaps are determined by the quality requirements of cleaning liquids by size of suspended particles. The particles of the soil are larger than the gap on the filter screen 6. At the same time, the sensor 20 of the flow controller 19 provides the greatest hydraulic resistance in the area between the inlet 15 and the outlet 16 nozzles. As the filtering screen 6 becomes clogged, the hydraulic resistance of the filter increases, and the pressure in the discharge pipe drops, as the filtrate consumption decreases with a constant hydraulic resistance of the consumer network (irrigation system) (not shown). At the same time, the flow sensor 20 will slightly open the stop valve of the flow controller, reducing its hydraulic resistance, thereby increasing the pressure drop across the filter screen 6. The flow of filtrate in the discharge pipe is thereby maintained within the required values set by the sensor 20.

five

five

In the position of the shut-off member of the flow regulator 19 Open (which corresponds to the maximum differential on the filter screen 6, i.e. maximum contamination and clogging of the gaps of the filter element 5), at which further control of the filtrate flow becomes impossible, the flow sensor 20 sends a signal to the unit The control unit 21, which generates commands and, through the communication line 22, closes the supply of the filtrate to the consumer’s network through the flow controller 19, switches the liquid supply through the four-way valve 3 to two The outgoing hydraulic actuator 2 in the position of the rod 4, in which the filtering element 5 is relieved of its axial compressive forces, switches the flow of fluid from the receiving chamber 12 to the outlet nipple 16 by means of an actuator 2k of the four-way valve 17, followed by supplying it to the sprinkler 18. At the same time in the filter on the filter screen side 6 is changed, the check valves 9 and 1 are closed. The flow of the crude liquid at high speed, opening the gaps of the filter element 5, passes through the slots 10 of the rotor 8 and enters the opening of the diverter 13, carries the deposited sediment on the screen 6 and rotates the rotor. Next, pass through the receiving chamber 12 and the four-way valve 17; The contaminated fluid enters the sprinkler 18, which distributes it evenly over a given area away from the filter. The filtering element 5 freely passes through itself all particles of suspensions of unpurified water, carries away all sediments from the filtering screen 6.

After the flushing time, control unit 21 sends a command to the 2k actuator of the four-way valve 17. which switches the water supply from the nozzle 15 to the receiving chamber 12, to the actuator 23 of the four-way valve 3 of the two-way hydraulic actuator 2, which again compresses the filter element 5, and the sensor 20 outputs a signal on the transfer of the locking organ to its original position. The cycle of supply and purification of the fluid is repeated.

The presence of a two-way hydraulic drive and a four-way crane 3 allows the size of the gap between the filtering elements 5 to vary, which ensures flushing and removal of sediments and suspensions from the filter when passing untreated water.

The cleaning process during backwashing is not associated with the danger of sediment deposition on the back side of the filtering screen 6, which, after turning on the filter in the Cleaning mode, must inevitably fall into the outlet branch pipe 16 of the consumer's network.

The presence of a sprinkler makes it possible to prevent the accumulation of sediment near the filter. The presence of a flow controller 19 allows the consumer to have a stabilized filtrate flow rate throughout the entire period of clogging of the filter screen. The presence of the control unit 21 and the communication line 22 allows, through the four-way valve 3, the valve 17 and the flow sensor 20, to automatically clean the fluid and supply it to the consumer network.

The use of a filter in drip irrigation systems and on other objects makes it possible to increase the efficiency of fluid purification during long-term operation with reliable automatic flushing of the filter element. The use of the invention provides an extension of the service life of the drip-outlet, increases the uniformity of water distribution due to the stabilized costs of the filtrate, reducing the operating costs of cleaning the filter screen. 1558 326

on and removing accumulated sediment sediments.

0

0

five

0

five

Claims (1)

Invention Formula A filter comprising a housing with a receiving chamber, a filtering element in the form of a set of rings, a washing device, inlet and outlet nozzles and shut-off and control valves, about one liter. The fact that, in order to prevent technological emissions of suspensions into the network 5 during the backwashing of the filter element and increasing the washing efficiency without increasing the consumption of wash water, the filter is equipped with a sprinkler unit, a two-way hydraulic actuator connected to the filtering element, and the washing device is designed as installed coaxially inside the filtering element. With the possibility of rotation of a hollow rotor with slotted non-return valves, connected to a rotational drive, displaced in the receiving chamber and made in the form of a jetting apparatus with a check valve, and the back-regulating armature is made in the form of a four-way valve installed on the supply line of the two-way hydraulic actuator and a four-way valve connecting the inlet and outlet nozzles with the overhead valve The inlet pipe is provided with a filtrate flow regulator, the flow sensor of which is connected to the valves and valves through the control unit. 0 Poly $ I M & 7 C 15. 17 14 / 23 hugs