CS203204B1 - Suction basket for pumps - Google Patents

Abstract

The strainer includes a hollow body 1 and an inlet sieve 3. The inlet sieve is fixed by its upper part in a first plate 4 and by its lower part in a second plate 5 and the sieve is arranged to be slidable in the hollow body. A circular ring 7 serves as a stop for the first plate and forms a guideway for axial movement of the sieve. When the pump is not working, the sieve falls and the first plate 4 rests on ring 7 to seal the suction pipe inlet. Upon operation of the pump, sieve 3 is forced upwards, e.g. to an extent controlled by a guide ring 6 which may carry a sieve cleaning element 7, allowing flow into the suction pipe via the sieve. Vanes may be mounted within the sieve to give it rotational motion upon flow of liquid therethrough enabling cleaning of the sieve outer surface by fixed brushes. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a pump suction strainer mounted on a suction line and permitting a one-time, repeatable or continuous cleaning of the inlet strainer of the pump suction strainer while maintaining the tightness of the suction line against leakage after pumping.

The prior art pump suction baskets are always provided with a fixed and stationary inlet screen to prevent mechanical impurities from entering the pump. Most types and construction systems of the suction baskets produced are further equipped with a non-return valve which, when pumping is interrupted, prevents water leakage from the suction line of the pump and thus impermissible aeration of the pump.

During operation, the inlet strainer of the basket gradually becomes clogged with dirt and rust and the hydraulic resistance increases. This further results in a significant decrease in the hydraulic efficiency of the entire pumping device. Ensure the required hydraulic efficiency of the pumping equipment. Under the given situation, therefore, for most produced suction baskets, it is only possible partially by repeated mechanical cleaning of their inlet screen or by timely replacement of the screen or the entire suction basket.

Both manual mechanical cleaning as well as possible dismantling and assembly must be carried out under very difficult conditions and when the entire pumping equipment is put out of operation, which entails considerable cost increases. Due to the difficulties indicated, in practice, the correction is usually only performed ₍ after accidents. Thus, during the whole operation, the pumping equipment operates with a relatively very low average hydraulic efficiency, which means that part of the electricity drawn by the pump motor is not used for pumping, But even the brand new suction strainers of conventional design with clean inlet screens and corrosion-free do not show satisfactory hydraulic efficiency because their design does not adequately meet the requirements of the hydraulically suitable shapes of all bypass parts of the suction strainer. .

The above-mentioned drawbacks of the so-called suction baskets are solved in a limited extent by a suction basket with a once-off and repeatable self-cleaning capability, where the non-return valve movement is used to reciprocate the attached wiping ring (at start and end of pumping time). The translationally movable wiper ring, rigidly connected to the non-return valve, is provided with brushes or other squeegees that contact the fixed and stationary inlet strainer screen. This solution is especially suitable for short-term and often repeated pumping and does not make it possible to significantly improve the hydraulic properties of the bypassed parts of the suction basket.

These drawbacks are eliminated by the pump suction basket according to the invention, consisting of a hollow body and a sieve. It consists in that the inlet screen fixed by its upper part in the circular plate and its lower part in the lower circular plate is movable in the hollow body, the annulus provided at the lower end of the hollow body and forming a stop for the lower circular plate forming a guide for axial displacement of the inlet strainer · It is advantageous that moppers are provided at the bottom of the hollow body and the annulus.

The inlet screen of the basket according to the invention is preferably provided with paddles to ensure its continuous rotational movement.

The progress achieved by the invention is that the movable screen of the suction basket provides a considerable self-cleaning effect by the inherent dynamics of its movement in the liquid medium. Mechanical wiping, whether disposable, repeatable, or continual if necessary, only enhances this natural self-cleaning effect. Also backwashing with liquid at the same time as mechanical wiping. multiplies the overall wiping effect. Furthermore, the suction basket according to the invention makes it possible to achieve significantly better hydraulic parameters and to ensure consistently high efficiency of the entire pumping device.

The stationary basket screen wiping elements contribute to the design, simplification, reduction of the failure rate of the basket together with its self-cleaning ability to prolong the life of the pumps, which can then operate in optimal hydraulic mode without cavitation induced by increased vacuums. with increasing hydraulic resistance of the basket. In doing so, the self-cleaning ability of the suction basket according to the invention utilizes only a part of the mechanical energy of water, which is used unproductively in the baskets produced so far to overcome the hydraulic resistances of the basket. textured spaces). The practical application of the pump suction basket according to the invention further results in savings in electrical energy, in an improvement in the relative electricity consumption per unit per volume of pumped liquid, and in savings in operating costs, in particular for repair and maintenance of the pumping equipment.

The suction basket according to the invention is described in more detail below with reference to the accompanying drawings, in which: FIG. 1 shows a schematic section of the suction basket according to the invention in the closed position; an example of a suction basket according to the invention, provided with vanes to ensure continuous rotational movement of the inlet strainer, and FIG. 4 is a sectional view of FIG. 3 along line A-A.

The suction basket shown in Fig. 1. It is formed by a hollow body 1 connected to a flange of the suction pipe line 2. In the lower part of the hollow body 1 there is provided a circular opening through which a movable inlet 3 of cylindrical shape, for example formed by a system of rod elements and gaps. At the upper end, the inlet screen 3 is anchored to the protruding circular plate 4 at the same time as a non-return valve and at the lower end the inlet screen is anchored to the protruding lower circular plate 5, acting simultaneously as a stroke limiter.

The guiding of the inlet sieve 3 is provided by the lower opening of the hollow body 1 and by an annular 6 fixedly connected to the hollow body 1, which at the same time form a stop for the lower ring 5.

When the pump is not working, the liquid overpressure in the suction line and the weight of the movable inlet screen 3 of the basket ensures that the circular opening of the basket hollow body 1 protrudes beyond the circular plate

4. This prevents liquid leakage from pump suction row 2 as well as aeration. At the beginning of drawing due to. The emerging vacuum of the liquid in the pump suction row 2 and the axial force of the flow flowing there is an - axial - - lift of the inlet screen 3 to the working position as shown in Fig. 2. The liquid flows through the suction basket approximately in the direction indicated by arrows . After interruption of the pumping operation, the inlet sieve 3 returns to its original position where it acts as a non-return valve due to the overpressure of the liquid in the suction row 2 and under its own weight. - 1 baskets, thereby ensuring backwashing of the inlets of the inlet screen 3 and washing away the mechanical impurities previously released by the pair of full circle wipers

7.

The suction basket shown in FIG. 3 has a basic configuration - identical to that of FIG. 1 with the only difference that - in addition, it is structurally adapted to provide a continuous rotational movement about the axial axis in the working position of the movable inlet screen 3. Therefore, the suction basket according to FIG. 2 is able to provide not only a one-time and repeatable cleaning of the inlet screen during axial movement of the screen but also continuous cleaning of the openings of the screen of arbitrary perforation with its permanent rotation in the working position. The rotational movement of the inlet screen 3 is here provided by suitably shaped vanes 8 or other elements disposed on the movable inlet screen 3 provided on the lower circular bottom 5 of the screen. When the blades 8 are flowing through the liquid stream in the upper working position of the inlet screen 3 as shown in FIG. 4, the reaction of the fluid stream causes a rotational movement of the inlet screen 3. The ring 6 of the inlet screen vertical stop 3 . Also, the swabs 9 at the lower opening of the hollow body 1 of the basket take over the function of a plain bearing, in this case radial. Continuous wiping of the inlets of the inlet screen 3 as it rotates is provided by wipers 9 firmly connected to the hollow body 1 of the suction basket.

The hydraulic mode of the suction basket of FIG.

Claims (3)

SUBJECT Pump suction basket comprising a hollow body and a sieve, characterized in that it comprises an inlet screen (3) fixed by its upper part in a circular plate [4] and its lower part in a lower circular plate (5), which is in the hollow body ( 1) provided movably, wherein the annulus (6) provided as a stop of the lower kxu plate [5] at the end of the rigid body [1] forms a guide for the axial displacement of the inlet screen - (3). 3 after stopping the pump is completely similar to the hydraulic mode of the suction basket according to FIGS. 1 and 2. · Only during pumping is the hydraulic mode of this basket enriched with 0 «phenomena associated with permanent rotation of the inlet screen 3 in its working position. When the pump is switched off, the resulting axial movement of the inlet sieve 3 towards the closed position of the basket is accompanied by a rotary movement of the inlet sieve 3, but in the opposite direction to that of the pumping. Pump suction strainer according to claim 1, characterized in that moppers are provided on the lower part of the hollow body (1) and the annulus (6), Pump suction strainer according to Claims 1 and 2, characterized in that the inlet strainer (3) is provided with vanes (81) to ensure continuous rotation of the strainer strainer (3).