CS203203B1 - Suction basket for pumps - Google Patents

Abstract

The strainer comprises a stationary part and a movable part. The movable part includes a body 5, an inlet sieve 4 and a bottom plate 6, e.g. of frusto conical form, which is situated at the lower end of the sieve. The stationary part includes a flange 1 attached to the pipe 2, and a stationary bottom plate 2 of corresponding shape to bottom plate 6 attached to the flange by guides 10. The movable part is displaceable relative to the stationary part by sliding along the guides between a non-working position where bottom plate 2 seals off flow through sieve 4 to pipe 2 and a working position where bottom plate 6 is lifted into contact with bottom plate 2 allowing flow through sieve 4 to pipe 2. Sealing means are provided between the flange and the stationary bottom plate 2 on the one part and associated portions of the movable part co-operating therewith, on the other part. A sieve cleaning element 3 may be mounted on bottom plate 2. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a pump suction strainer mounted on a suction line which permits one-time and repeatable cleaning of the pump suction strainer inlet while maintaining the tightness of the suction line against liquid leakage upon pump interruption. the task of passively preventing mechanical impurities from entering the pump. Most types and construction systems of the produced suction baskets are further equipped with a non-return valve which prevents interruption of pumping to prevent leakage of liquid from the suction order 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 thus the hydraulic resistance increases. This results in a significant decrease in the hydraulic efficiency of the entire pumping device. Therefore, to ensure the required hydraulic efficiency of the pumping equipment in a given situation, it is possible to achieve only a limited number of suction baskets by repeated mechanical cleaning of their inlet screen or by timely replacement of the screen or the entire basket. At the same time, 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 a considerable cost increase. Given the difficulties indicated, in practice, correction is usually only undertaken after accidents. Thus, throughout the operation, the plant corpation works with a relatively very low average hydraulic efficiency, which results in part of the electrical energy drawn by the pump motor not being used for pumping, but nonproductively to overcome the hydraulic resistance increases of the partially clogged and corroded strainer basket.

But even the brand new suction baskets of conventional design with clean, non-corrosive inlet screens do not provide satisfactory hydraulic efficiency because their design does not adequately meet the requirement of hydraulically suitable shapes for all bypass parts of the suction basket.

The aforementioned drawbacks of the so-called suction baskets are solved to a limited extent by a suction basket with a once-on-off and repeatable self-cleaning capability where the non-return valve movement is used to reciprocate the connected wiping ring [at start and end of pumping time]. The translationally movable wiping ring, fixedly connected to the non-return valve, is provided with brushes or other squeegees which touch the fixed and stationary suction strainer inlet screen. This solution is particularly suitable for short-term and often repeated pumping and does not allow to significantly improve the hydraulic properties of the bypassed parts of the suction basket.

These drawbacks are overcome by the pump suction basket of the invention mounted on the suction line. It is based on the fact that a rigid bottom with a further sealing seat is attached to the upper flange provided with the sealing seat of the suction basket body, and the inlet basket of the suction basket is slidably mounted on the guides.

Preferably, the rigid bottom is provided with a conical ring at its periphery extending towards the periphery of the inlet screen, which is provided at its lower part with a corresponding conical bottom with swabs.

The progress achieved by the invention is that the movable screen of the suction basket provides a considerable self-cleaning effect by the very dynamics of the process of its movement in the liquid medium. Mechanical wiping, disposable and repeatable only increases this natural self-cleaning effect. Also, backwashing with liquid along with 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 structural simplification, reduce basket failure and, together with its self-cleaning ability, extend the life of the pumps, which can then operate in optimum cavitation-free hydraulic mode due to increased vacuums with increasing basket resistance. In order to ensure the self-cleaning ability of the suction basket according to the invention, only part of the mechanical energy of water is used, which is used unproductively in the baskets produced so far to overcome the hydraulic resistances of the basket (whether partially clogging its inlet screen) ). The practical application of the pump suction basket according to the invention further results in savings in electrical energy per unit volume of the pumped liquid and in operating costs, in particular for the 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 drawing, in which: FIG. 1 shows a schematic cross-section of the suction basket according to the invention in the closed position;

The suction basket according to FIGS. 1 and 2 is formed by an upper flange 1 connected to the suction pipe 12, to which it is rigidly connected by means of guides 1C a rigid bottom 2 of hydraulically suitable shape. Wipers 3 suitably adapted to the perforation of the inlet screen are attached to the outer edge of this rigid bottom 2

4. The suction basket inlet screen 4 together with the fixed movable roller 5 and the concave bottom 6 form a movable part of the suction basket. The movable cylinder § of the inlet screen 4 is provided with a stop 7 and a pair of sealing seats 8 and 9.

When the pump is not working (as shown in Fig. 1), the inlet screen with the movable cylinder 5 assumes the lower position and the overpressure in the suction line 12 together with the self-weight of the movable parts of the basket ensures tightness of the inner space of the basket by sealing seats 8 and 9. the possibility of leakage from the suction line and the pump aeration are prevented. At the beginning of the pumping, due to the resulting vacuum of the liquid in the suction line of the pump and the axial force applied thereto, the entire movable part of the suction basket is axially lifted to the working position as indicated in FIG. 2. The guiding function 10 is provided by the guides 10 on which the conical bottom 2 of the movable part of the suction basket is mounted.

During the axial movement of the movable part of the basket, the openings of the inlet screen 4 are simultaneously wiped out and flushed with liquid ejected from the space between the rigid bottom 2 and the concave bottom 6 of the inlet screen. In the working position of the screen, the liquid flows through the suction basket approximately in the direction of the arrows and is not disturbed by the flowing of any internal elements of the basket.

After the pumping is interrupted, the movable part returns to its original position, where it acts as a non-return valve, due to the overpressure of the liquid in the suction line and due to its own weight. Here again, the inlets of the inlet screen 4 are internally wiped out and are intensively backwashed by the volume of liquid between the rigid bottom 2 and the inner conical portion 11 of the movable inlet screen roller.

SUBJECT OF THE INVENTION

Claims (2)

SUBJECT OF THE INVENTION A pump suction basket mounted on a suction pipe, characterized in that it comprises a rigid bottom (2), fixed by guides (10) to the upper flange (1) provided with a housing seat (9), a suction basket and provided with another a sealing seat (8), the axially movable suction strainer inlet (4) being slidably mounted on the guides (10). Pump suction basket according to claim 1, characterized in that the rigid bottom (2) is provided with wipers (3) at its outer edge. 1 sheet of drawings Severography, n. P., Plant 7, Most