MD263Z - Sealed electric pump - Google Patents

Abstract

The invention relates to hydraulic machine building, particularly to centrifugal electric pumps for pumping liquids, and can be used in various branches of industry in the design of sealed shielded electric pumps with dry stator and wet rotor.The sealed electric pump includes a pump part and an electric motor. The electric motor comprises a stator unit and a rotor unit. The stator unit comprises a body in the form of glass, in the bottom of which is hermetically fixed the electric cable bushing. At the opposite end of the body is made a flanging. Inside the body is situated the stator. The rotor unit comprises a sealed shielding sleeve, inside which is placed the rotor. The rotor shaft of the electric pump is installed in radial bearings, placed in shock absorbers through bushes. The sleeve from the end of the body bottom is hermetically sealed with a plug, under which is installed a spacing washer. At the ends of the rotor are mounted thrust bearings, which come in contact with the ends of the bearings, bushes and shock absorbers.Mounting of the rotor unit sleeve to the pump part is made with the help of a coupling bolt passing through a joint ring, forming a rotary-pumping unit.Mounting of the stator node body to the sleeve and the pump part of the electric pump is made with the help of a bolt, passing through a pressure ring, placed on the flanging of the stator unit body.The result of the invention is to simplify the design of the sealed electric pump by making the stator removable with the possibility of dismantling without unsealing the hydraulic circuit of the pump.

Description

The invention relates to the construction of hydraulic machines, in particular to centrifugal electric pumps for pumping liquids, and can be used in various branches of industry in the construction of hermetically shielded electric pumps with dry stator and wet rotor.

A hermetic electric pump is known, having a monoblock construction, which unites the pumping part and the electric motor, which contains a stator with a encapsulated input of the electric cable and a rotor. Cylindrical bushings are installed on the outer and inner surfaces of the stator. In the sealed cavity of the rotor is located the shaft of the electric pump, installed in bearings, each of which includes a sleeve and a bearing. The rotor is mounted on the shaft, and the bearing sleeves are rigidly installed on the inner bushing. The outer front surfaces of each bearing are located on the respective ends of the rotor [1].

The disadvantage of the described device lies in the complexity of its construction, which does not ensure convenient access to the stator winding in case of need for repair work.

The closest in technical essence to the claimed solution is the construction of a hermetic centrifugal electric pump, which refers to pumps with a built-in electric motor with a wet rotor and a non-removable working chamber. The rotor is installed on a shaft in radial and axial bearings. The electric pump is a monoblock construction, which unites the pumping part and the electric motor, which contains a stator with a encapsulated input of the electric cable and a rotor, the cavity of which is separated from the stator cavity by a cylindrical sealing bush, which freely enters the inner bore of the stator, the bush being equipped with bearings, in which the rotor shaft of the electric pump is installed. The edges of the sealing bush are welded to the bearing shields [2].

The described design is complex both in manufacturing and in operation. In particular, dismantling the stator for repair and restoration of its winding requires the removal of the weld seam between the bushing and the shields, and a subsequent labor-intensive process of restoring the seats in the bearing shields to ensure the norms of stator-rotor coaxiality. Such a repair is complicated and expensive and can only be carried out at specialized enterprises.

The problem that the invention solves consists in developing the construction of a hermetic electric pump with a removable stator, which would allow the stator to be dismantled without unsealing the pump's hydraulic circuit.

The problem is solved by the fact that the hermetic electric pump is made as a monoblock construction consisting of the pumping part and the electric motor, which contains a stator with a sealed entrance for the electric cable and a rotor, the cavity of which is separated from the stator cavity by a cylindrical sealing bushing, which freely enters the inner bore of the stator. Bearings are placed in the bushing, in which the rotor shaft of the electric motor is installed. The stator is placed in a cylindrical body with a bottom on one side, in which the sealed entrance for the electric cable is mounted, and an external rim is made on the other side of the body. The sealing bushing is equipped with a blind flange at one end, and with the other end it is sealed with the wall of the pumping part. Inside the bushing in axial bearings located on the ends of the rotor are installed radial bearings fixed in attenuating shock absorbers, which rest on the bushing, with the possibility of centering the rotor relative to the inner surface of the bushing. The rotor node is fixed by a connecting ring with bolts on the pumping side with the formation of the rotor-pump block, and the stator node is fixed to the rotor-pump block with bolts passing through a pressure ring, located on the edge of the stator body, and the connecting ring.

At the same time, a bushing is placed between the bearing and the rotor node damper. And the attenuating dampers are made of silicone rubber.

The result of the invention consists in simplifying the construction of the hermetic electric pump by making the stator removable with the possibility of dismantling it without unsealing the hydraulic circuit of the pump.

The indicated result is obtained by making the stator body in the shape of a cylindrical cup, having an outer rim on the open side. Inside the body is installed the stator, into the inner bore of which the sealing bushing, which contains the rotor node, freely fits.

The design of the bushing in the form of a hermetically sealed cylinder with a blind flange on one side, and on the other side tightly connected to the pump wall and fixed by the connecting ring to the pumping part of the electric pump ensures the tightness of the wet cavity of the rotor.

Due to the tightening of the stator body with screws through the pressure ring, installed on the rim, to the connecting ring of the rotor-pump block, not only reliable sealing of the internal cavity of the electric motor is ensured, but also the possibility of easy installation and removal of the stator.

The centering of the rotor shaft of the electric pump on the inner surface of the bushing is carried out using radial bearings, installed through bushings in the attenuating shock absorbers. At the same time, the presence of axial bearings located at the ends of the rotor, on which the ends of the radial bearings and shock absorbers rest, reduces the axial loads that occur during operation, forming a system of perception of axial forces - axial bearings. As a result, stable operation of the rotor-pump block is achieved.

Thus, the proposed relatively simple construction ensures reliable sealing of the internal cavity of the electric motor, which eliminates environmental pollution due to leakage of hazardous liquids, loss of pumped products, and reduces financial expenses and the amount of work required to service it.

The invention is explained by the drawings in Fig. 1-3, which represent:

- Fig. 1, hermetic electric pump as a whole, longitudinal section;

- Fig. 2, stator assembly, longitudinal section;

- Fig. 3, rotary pump assembly, longitudinal section.

The hermetic electric pump includes a pumping part and an electric motor (Fig. 1). The electric motor includes a stator node 1 and a rotor node 2. The stator node 1 contains a cup-shaped body 3, in the bottom of which the electric cable inlet 4 is tightly fixed, a border is made at the opposite end of the body, and a stator 5 is placed inside the body (Fig. 2). The rotor node 2 contains a sealing bushing 6, inside which a rotor 7 is placed (Fig. 3). The rotor shaft 8 of the electric pump is installed in radial bearings 9, located in shock absorbers 10 through bushings 11. The bushing 6 at the bottom of the body 3 is sealed with a blind flange 12, under which a spacer ring 13 is located. Axial bearings 14 are mounted at the ends of the rotor, which contact the ends of the bearings 9, bushings 11 and shock absorbers 10.

The fixing of the bushing 6 of the rotor node 2 to the pumping part is carried out using a tightening screw 15, which passes through a connecting ring 16.

The fixing of the body 3 of the stator assembly 1 to the bushing 6 and the pumping part of the electric pump is carried out using a screw 17, which passes through a pressure ring 18, located on the edge of the body 3 of the stator assembly 1.

In the process of preparing the claimed device for operation (fig. 1), the consecutive assembly of the main components is carried out: stator assembly (fig. 2) and rotary pump assembly (fig. 3).

In the process of preparing the stator node in the body 3, the stator package is installed, and in its bottom, the electrical cable inlet 4 is tightly fixed for connecting it to the stator windings. The pressure ring 18 is placed on the edge of the body 3.

When preparing the rotor-pump block in the opposite ends of the cylindrical bushing 6, hermetically closed with a blind flange 12, sets of bearing-bearing-shock absorbers are installed with the support of shock absorbers 10 on the inner wall of the bushing. Shock absorbers can be made, for example, of fluorosilicone rubber. Between these sets is placed the rotor package, at the ends of which there are axial bearings 14, which rest on the ends of the sets of bearing-bearing-shock absorbers. The shaft 8 of the rotor of the electric pump is installed in the bearings 9 of each set, which provides its centering and coaxiality on the bushing 6. A pump wall is welded to the open end of the bushing on the outer diameter.

The bushing 6 is connected to the pumping side via the connecting ring 16 with a tightening screw 15.

The bushing 6 with the rotating pumping part assembled in it is inserted into the inner bore of the stator 5 of the stator node 1.

Next, the stator and rotary pump nodes are tightened to each other using the clamping ring 18 and the screw 17.

Due to the block made of the electric pump, the rotor cavity is hermetically separated from the stator cavity, at the same time, the possibility of assembling and disassembling the stator node without disassembling the electric pump from the pipeline network is ensured.

Example of embodiment of the invention.

In the process of developing the claimed technical solution, a hermetic electric monoblock console pump CME-6.3/32 with a removable stator was manufactured. The design documentation of the pump is presented in the volume of the project sketch.

Below is a table containing the basic parameters and technical characteristics of the claimed device. The table also contains relevant data characterizing the constructive and operational qualities of the hermetic centrifugal electric pump PC-6.3/32, currently produced by the company "Moldhidromaş" S.A.

The most important element of the claimed construction is the removable stator, which makes it useful for repairs.

The comparative analysis of the data inserted in the table clearly demonstrates the advantages of the hermetic electric pump over the known pump in terms of such important operating parameters as:

- the weight of the electric pump (it is less than the weight of the known device practically by 4.5 times);

- dimensions of the electric pump (the length of the claimed device is less than the length of the known device by practically 1.8 times).

As a result, with the other operating qualities of the compared devices being equal, the spectrum of technical possibilities for using the claimed electric pump is much wider.

Table

Unit type Hermetic monobloc console pump Hermetic centrifugal pump Conventional sign CME-6.3/32, where 6.3 m3/hour - consumption 32 mCA - pressure PC-6.3/32, where 6.3 m3/hour - consumption 32 mCA - pressure Power of the built-in asynchronous electric motor (kW) 2.2 2.2 Synchronous rotation frequency (rpm) 3000 3000 Supply voltage (V) 380 380 Weight (kg) 16 70 Dimensions - length x width (mm) 360x242 640x280 Nominal diameter (mm) 40 - inlet 40 - outlet 50 - inlet 32 - outlet Stator construction Removable, useful for repairs Non-removable, useless for repairs Maximum allowable pressure in the body (kg/cm2) 16 16 Temperature range of pumped liquids (°C) -40÷100 -40÷100 Insulation class H H Stator bore diameter (mm) 73 73 Stator bushing thickness (mm) 0.4 0.4 Length of the active part of the rotor and stator package (mm) 110 110 Stator inner diameter (mm) 138 138 Material of parts adjacent to the pumped liquid 12X18H10T 12X18H10T

1. MD 3106 G2 2006.07.31

2. Leak-proof centrifugal electric pump 2ХГ-5K-4,5-2, Techmashexport, SSSR, Moskva, ed. 799/2092, 1989

Claims (3)

1. Hermetic electric pump, which is made as a monoblock construction consisting of the pumping part and the electric motor, which contains a stator with a sealed entrance for the electric cable and a rotor, the cavity of which is separated from the stator cavity by a cylindrical sealing bushing, which freely enters the inner bore of the stator, bearings are placed in the bushing, in which the rotor shaft of the electric motor is installed, characterized in that the stator is placed in a cylindrical body with a bottom on one side, in which the sealed entrance for the electric cable is mounted, and an outer rim is made on the other side of the body; the sealing bushing is equipped at one end with a blind flange, and with the other end it is sealed with the wall of the pumping part; Inside the bushing on axial bearings located on the ends of the rotor, radial bearings fixed in attenuating shock absorbers, which rest on the bushing, are installed with the possibility of centering the rotor with respect to the inner surface of the bushing, at the same time the rotor node is fixed by a connecting ring with screws on the pumping side with the formation of the rotor-pump block, and the stator node is fixed to the rotor-pump block with screws that pass through a pressure ring, located on the edge of the stator body, and the connecting ring. 2. Pump according to claim 1, characterized in that a bushing is placed between the bearing and the rotor node damper. 3. Pump according to claims 1 and 2, characterized in that the attenuating shock absorbers are made of silicone rubber.