RU49653U1 - EXPLOSION-PROTECTED MOTOR ASYNCHRONOUS - Google Patents

Abstract

(57) Scope: electrical engineering, namely the drive of machines and mechanisms operating in hazardous areas of rooms and outdoor installations, for example, at petrochemical facilities, mine-ore, paint industries. Objective: the creation of an asynchronous explosion-proof motor with improved indicators in terms of mass, material and energy consumption, as well as the optimization of the technological cycle of engine manufacturing. The essence of the utility model: an explosion-proof asynchronous motor contains an explosion-proof shell made of aluminum alloys with a stator inside which a rotor is installed. The bed of the flameproof enclosure is made with vertically horizontal fins, and the base of the terminal box is attached to it. 1 s.p. f-ly, 2 ill.

Description

The proposed utility model relates to electrical engineering and is intended for drives of machines and mechanisms operating in hazardous areas of premises and outdoor installations, for example, at petrochemical facilities, mine-ore, paint industries.

Known flameproof enclosure containing a cylindrical housing with an opening and an input box mounted on the end of the housing. The shell is also equipped with lodgements made with the possibility of installing adjacent platforms with various types of electric drives and a drive roller for kinematic communication with the drive element of the electric drive (see, for example, RF patent No. 2186450 C1, IPC N 02 K 5/136, 5/12 publ. 2002.07.27).

However, the known flameproof enclosure increases the overall dimensions and cost of the equipment, is characterized by increased installation complexity, and is associated with a narrow distribution area.

Closest to the proposed utility model are asynchronous explosion-proof motors with a squirrel-cage rotor of the VA series with a cast-iron sheath (see, for example, Technical Catalog. Vladimir Electromotor Plant, 2001, pages 49-54).

However, asynchronous explosion-proof motors in a cast-iron shell have a significantly larger mass, about 1.5-2 times more than similar motors in an aluminum shell.

The objective of the utility model is to create an asynchronous explosion-proof motor with improved performance in terms of mass, material and energy consumption, as well as optimization of the technological cycle of engine manufacturing.

This task is achieved by the fact that in an asynchronous explosion-proof motor containing an explosion-proof casing with a stator inside which a rotor is installed, according to a utility model, the flameproof casing is made of aluminum alloys.

It is advisable that in an asynchronous explosion-proof motor, according to a utility model, the bed of the flameproof enclosure would be made with vertically horizontal fins, and the base of the terminal box would be attached to it.

The manufacture of an explosion-proof engine shell made of aluminum alloys makes it possible to improve, in comparison with counterparts with a cast-iron shell, indicators of engine mass, material and energy consumption, and also to optimize the technological cycle of engine manufacturing.

Vertical-horizontal ribbing of the bed - improves the conditions of heat exchange with the environment by increasing the heat transfer surface (optimizes the configuration of the heat exchange surfaces), as a result, the temperature of heating the bed, stator windings decreases; reliability of the engine increases, the mass of the bed decreases, the indicator of the service factor increases. The terminal box base attached to the bed makes it possible to increase the level of tightness of the motor along the current lead line, and improves the conditions for assembling the motor.

The essence of the utility model is illustrated in the drawing.

In Fig.1 shows an asynchronous explosion-proof motor, in Fig.2 - view A on the left.

Explosion-proof asynchronous motor consists of a flameproof enclosure made of aluminum alloys, including terminal box 1, shields 2 (second not shown) and frame 3, stator 4, inside of which rotor 5 is installed. Bed 3 is a cylindrical structure at the ends of which are installed with

guaranteed explosion-proof slotted gap shields 2, which are pulled together with the frame 3 fasteners 6, perceiving the pressure of the explosion. Terminal box 1 is located in the upper part of the bed 3 for connecting the wires of the power supply cable. From the outer surface of the frame 3 supports are provided with four holes 7 for mounting the engine.

To improve the conditions of heat exchange with the environment, to further reduce the mass of the bed 3, to increase the service factor indicator on the bed 3, vertical-horizontal ribbing can be performed, and the base of terminal box 1 can be attached to the bed 3.

The explosion-proof asynchronous motor operates as follows.

When power is supplied to the motor, an asynchronous explosion-proof through terminal box 1, an electromagnetic field is created in the stator 4 and drives the rotor 5.

Claims (2)

1. An asynchronous explosion-proof motor containing an explosion-proof casing with a stator, inside which a rotor is installed, characterized in that the flameproof casing is made of aluminum alloys. 2. The explosion-proof asynchronous motor according to claim 1, characterized in that the bed of the flameproof enclosure is made with vertically horizontal fins, and the base of the terminal box is attached to it.