RU65335U1 - HEAT-GENERATING ELECTROMECHANICAL CONVERTER - Google Patents

Abstract

A heat-generating electromechanical converter designed to heat and / or move a liquid or gaseous medium and using an additional heat-insulating antifriction element from a non-conductive material.

Description

The utility model relates to electrical engineering and can be used for industrial, agricultural and domestic needs.

A known water heater containing a network winding, a magnetic circuit and a heating element in the form of a rotating secondary winding having the form of a hollow electrically conductive cylinder with a sealed base (PM No. 9144 of the Russian Federation, IPC Н05В 6/10).

There is an electric heater containing a frame and a heating element cooled by a fan, the frame being formed by a magnetic circuit with a primary winding located on it, connected to an alternating current main through an integrated frequency regulator supplying the primary winding of the voltage electric heater, and the heating element is made in the form of a rotating self-cooling secondary winding, consisting of short-circuited rods mounted on a movable support (certificate for PM No. 7266 of the Russian Federation, MKI N05V 3/06).

The closest in technical essence is a heat-generating electromechanical converter containing a magnetic circuit, a network winding, a heating element made in

in the form of a rotating secondary winding made of electrically conductive material, rotating in the bearing units and a stationary heat-generating element of electrically conductive material located between the main and secondary windings (PM No. 46139 of the Russian Federation, MKI N05V 6/10, F25V 29/00).

A common disadvantage of these devices is the low productivity associated with the high hydraulic resistance of the heat generator.

The objective of the claimed utility model is to improve the operational characteristics of the electromechanical transducer by increasing its performance.

The technical result achieved in the process of solving the problem is to increase the amount of medium heated and moved by a heat-generating electromechanical transducer (TEC).

This technical result is a consequence of a decrease in the hydraulic resistance of the device. As a result of using an additional element of anti-friction non-conductive material that acts as a radial and / or thrust sliding bearing, an increase in the performance of the TEC is provided.

The essence of the proposed utility model is illustrated in figure 1.

The heat-generating electromechanical converter consists of a magnetic circuit with a network winding 1 located on it and a rotating short-circuited secondary winding made in the form of a hollow cylinder 2, on the inner surface of which pressure blades are formed and rigidly connected with it 4. The rotating secondary winding and the magnetic circuit are separated by an additional heat-insulating element made of anti-friction non-conductive material 3, performing

the function of a radial and / or thrust sliding bearing and constituting a whole with the magnetic circuit and the primary winding.

Heat generating electromechanical Converter operates as follows.

The mains winding 1 is supplied with voltage from the AC mains. The current passing through the winding 1 creates a magnetizing force and an alternating magnetic field, which induces, on the basis of the law of electromagnetic induction in the secondary winding 2, an electromotive force and the secondary current caused by it, which interacts with the magnetic field and causes a torque. Since between the inner surface of the magnetic circuit and the outer surface of the winding 2 there is an additional heat insulating element made of antifriction material and representing a radial and / or thrust sliding bearing, the winding 2 comes into rotation at a speed determined by the TEC parameters. During the rotation of the winding 2, made in the form of a hollow cylinder, on the inner surface of which pressure blades are formed and rigidly connected with it, the heated medium moves along the path with minimal hydraulic resistance.

The amount of heat generated by the secondary winding 2, and its productivity (i.e., the amount of heated and / or transported medium per unit time, m ³ / s) depends on the magnitude of the secondary current and the rotation speed of the winding 2.

Thus, as a result of using an additional heat-insulating element made of antifriction material and representing a radial and / or thrust sliding bearing, an increase in TEC productivity is provided.

Claims (1)

An electromechanical converter containing a primary winding, a magnetic circuit and a rotating squirrel cage secondary coil made in the form of a hollow cylinder, characterized in that the rotating secondary winding and the magnetic circuit are separated by an additional heat-insulating element of antifriction non-conductive material that acts as a radial and / or thrust sliding bearing and component the whole with the magnetic circuit and the primary winding, and on the inner surface of the secondary winding pressure blades are rigidly connected with it.