SU1446352A1 - Immersion water-lifting unit - Google Patents

Abstract

Invention m. used in devices for the supply of water from the well. The purpose of the invention is to increase the cost-effectiveness ... of a submersible unit. The pump (H) 2 is fixed on the pressure pipe 1. The electric motor 3 with a lattice base 4 is installed under H 2. The casing 5 covers the suction port 6 H 2 and the electric motor 3. The float 7 is located above the H 2. The casing 5 is designed as spring-loaded petals , the upper ends of which are connected with the float 7, the lower ones are hinged on the base 4. Such an embodiment of the casing 5 provides increased heat removal from the outer surface of the electric motor 3 by obtaining the required flow rate of water over the launch period. 3 il. § SL Od 00 t k

Description

The invention relates to hydraulic engineering, in particular to devices for supplying water from a well.

The purpose of the invention is to increase eco-comicity by adjusting the hydraulic resistance at the pump inlet.

Figure 1 schematically shows the unit, a longitudinal section; FIG. 2 is a view A of FIG. 1; on fig.Z - section bb in figure 1.

The submersible water-lifting unit contains a pressure pipe 1, a pump 2 fixed on it, an electric motor 3 with a lattice base

4 (figure 2), mounted under the pump 2, and the casing 5, covering the suction port 6 of the pump and the electric motor.

The unit is equipped with a float 7, located above the pump 2, and the casing

5 made in the form of spring-loaded petals 8 (FIG. 3), the upper ends of which are connected to the float 7, and the lower pivotally fixed on the trellis base 4. The casing 5 may have the shape of a truncated cone, and on the petals there are springs 9 and a rope 10 is fixed .

Submersible water-lifting unit works as follows.

When the submersible lifting unit is lowered into the borehole, the petals of the casing 5 are in the closed position, for which the cable 10 is tightened. After the end of the assembly of the assembly, the valve installed at the wellhead closes. After the unit is started up, the valve (not shown) in the pipeline 1 opens gradually. As the feed rate of the centrifugal pump 2 increases, the speed of flow of the outer surface of the electric motor 3 increases.

Water enters the casing 5 only from below through the lattice base 4. The casing 5 has the shape of a truncated horse

sa The flow rate of the upper part of the electric motor 3 is greater than that of the lower part, which contributes to better heat removal from the upper part of the outer surface of the electric motor 3, which is most susceptible to overheating, during the period of low pump flows.

As the water flow from the well, its level drops. When the water level drops below the location of the float 7, the latter drops down. Under the action of the force of the spring 9, the petals 8 of the casing 5 are opened up to contact with the wall of the casing.

After the lobes 8 of the casing 5 have opened, the hydraulic resistance of the entrance to the pump 2 decreases, and the cooling of the electric motor 3 takes place due to the flow of pumped water. The pump 2 at the same time works on nomi-. filing,

Thus, the casing 5, consisting of several petals 8, provides a higher heat removal from the outer surface of the electric motor 3 by providing the required flow rate of water for the period during which the unit has seized ,.

Claims (1)

Formula invented the shadows A submersible water-lifting unit comprising a pressure pipe, a pump fixed thereto, a grid-mounted electric motor installed under the pump} and a casing of a suction port of the pump and an electric motor, characterized in that, in order to increase efficiency by adjusting the hydraulic resistance at the pump inlet, the unit is equipped with a float located above the pump, and the casing is ejected in the form of spring-loaded petals, the upper ends of which are connected to the float and the lower ends are fixed to the re stitched base. Vida W Phie.2 S-5 Fig.Z