RU1810080C - Helical filter - Google Patents

Abstract

The invention relates to the fields of industry, agriculture, operating and manufacturing filters for purifying a liquid, a gas from a dispersed phase, and separating effluents into fractions. The filter consists of a housing with a supply pipe and a filtrate discharge pipe, vertically mounted in the filter element housing from a spiral and a movable valve, held in position by a spring attached to the bracket. The filter element is made in the form of a truncated cone. The housing comprises, on the line of the inlet pipe, a downpipe blocked by a piston moving in a cylinder held by a spring, the elasticity of which is controlled by a flywheel. The piston is pivotally connected to the connecting rods with a piston moving in a cylinder located on the line of the outlet pipe of the filtrate, and connected to it. A cylinder with a nozzle is connected to an air compensator located on the line of the outlet nozzle. 3 s.p. f-ly, 8 ill.

Description

The invention relates to industries, agriculture, operating and manufacturing filters for cleaning liquid, gas from the dispersed phase, separation of effluents into fractions.

The purpose of the invention is to increase filtering ability and expand technological capabilities.

In FIG. 1 shows a General view of the filter in section (working under pressure); figure 2 is the same in the regeneration mode; in Fig.Z - the basis of the filter of twisted wire of equal diameter; figure 4 is a section aa in fig.Z; figure 5 - the basis of the filter from a twisted regular polygon along the longitudinal axis -; in Fig. b - section bb in Fig. 5; figure 7 - the basis of the filter during alternation

twisted regular polygon along the longitudinal axis with a wire with a diameter close to the diameter of the twisted rod; on Fig - section CC in Fig.7.

The filter consists of a housing 1 with a supply pipe 2 and a discharge pipe 3 of the filtrate, vertically mounted in the housing 1 of the filter element 4 from a spiral 5 and a movable valve 6, held in position by a spring 7, mounted on a bracket 8. The filter element 4 is mounted on the frame 9 in the form of a truncated cone mounted on the cover 10. The housing 1 contains on the line of the inlet pipe 2 a bypass pipe 11, overlapped by a piston 12 moving in a cylinder 13 held by the rod

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14, the elasticity of which is regulated by the flywheel 15 and rigidly connected to the valve 16 of the inlet pipe 2. The piston 12 is pivotally connected by the connecting rods 17 to the piston 18 moving in the center 19, located on the line of the filtrate outlet pipe 3, and connected to it. The cylinder 19 with the nozzle 3 is connected to the air compensator 20 in the form of a tank located on the line of the outlet nozzle 3.

The filter works as follows.

The flow of filtered fluid. through the inlet pipe 2 under pressure enters the housing 1 and the filter element 4, as a result of which the pressure P. of the filter element 4 from the outside is greater than inside 4, since the fluid flow passing through the filter element 4 loses some of its energy, overcoming hydraulic resistance of the filter element 4 over the entire circumference, including the lower movable part, compressing the coils of the spiral 5 through the movable valve 6.

The filtrate 4 is regenerated automatically using a water hammer. As accumulation of filtering impurities on the filtering element 4, the pressure in the housing 1 and the inlet pipe 2 will increase, and when a certain level is regulated by the flywheel 15, the piston 12 is pulsed by opening the bypass pipe 11, through which part of the filtered fluid is discharged, lowering the pressure in the housing 1 and on the filter element 4. At the same time, the force of the piston 12 is transmitted through the connecting rods 17 to the piston 18, which Referring ory moving the cylinder 19 compresses the filtered liquid by moving it in the discharging pipe 3.

Since the diameter of the outlet pipe 3 is much smaller than the diameter of the piston 18, part of the filtered liquid will enter the air compensator 20 with compressed air, and part will be the filter element, increasing the pressure inside it pulsed.

So the pressure in the housing 1 after the piston 12 opens the bypass pipe 11 will decrease and the flow of filtered fluid through the inlet pipe 2 is blocked by a valve 16. By increasing the pressure inside the filter element including valve b, the filter element will increase in length, opening the inter-turn filter clearances, will reduce the resistance of reverse filtration, impulse flow

the filtered liquid will be removed from the filter element over the entire surface, which is facilitated by the shape of the filter - a truncated cone with a smaller base down. In addition, the liquid entering the air compensator 20 will compress the air there, which by its impulse creates additional force in the filter element, which facilitates its regeneration.

After regeneration of the filter element 4, i.e. reducing the filter resistance, under the action of the spring 14, the piston 12 will block the bypass pipe 11 and

at the same time it will open the valve 16 on the inlet pipe 2, the filtered liquid will flow into the housing 1 for filtration. If the filter regeneration process is insufficient, then with the increase in pressure in the housing 1 and the supply pipe-2, the regeneration process will automatically be repeated.

The spiral filter design extends the purification range of various liquids. and gases through the use of filter elements of the proposed design.

Claims (4)

The claims - 1. Spiral filter containing housing with inlet and outlet pipes and a vertically mounted filter element, made in the form spirals, characterized in that; in order to increase the filtering ability and expand technological capabilities, the filter element is made in the form of a truncated cone with a spring-loaded valve in the lower part, while the housing is equipped with a pulse device made in the form of a spring-loaded piston mounted on the line of the inlet pipe and connected pivotally to the piston installed on the line of the outlet pipe made with an air computer. 2. The filter according to claim 1, on the basis of which the spiral is made of two twisted wires of equal diameter. . 3. The filter according to claim 1, about t l and h and y u and s the fact that the spiral is made of a multifaceted rod twisted around a longitudinal axis. 4. The filter according to claim 1, wherein the spiral is made of a multifaceted rod twisted around its axis and laid between rods of circular cross section of equal diameter.