SU1075352A1 - Pole for electric machine - Google Patents

Abstract

ELECTRIC MA. POLES. TIRES, containing a core of ferromagnetic electrically conductive material in the form of separate longitudinally arranged and isolated one from another sections, which are the terminals of the compensation winding, that, in order to increase the efficiency and simplify the manufacturing technology, it is equipped with a laminated tip, while the tip and the magnetically conducting elements have wedge-shaped protrusions and hollows us, through which they are joined to each other, and between sections of the core placed at least one spring. (L | sd ate her kc

Description

The invention relates to electrical engineering and relates to the poles of electric machines with compensation winding.

A known design of the poles with a compensation winding and a detachable tip, recruited from individual sheets of steel. The lined tip is glued to the core or bolted [1].

The disadvantage of this design is the consumption of copper on the compensation winding.

Closest to the invention is the construction of the pole, in which, to save copper, the core is divided into separate longitudinally arranged parts — sections made of ferromagnetic material and which are simultaneously compensation winding rods and a magnetic circuit for the main magnetic flux. The sections are attached to the casing with clamping elements covered with a layer of insulation and face directly to the air gap of the machine “[2].

The manufacture of a known pole causes technological difficulties due to the need to ensure that the surface of the pole, facing the anchor, is executed along an arc of a circle. In addition, additional losses occur on the surface of the pole, caused by a change in magnetic induction due to the alternate passage of the teeth and grooves of the armature, which reduces the efficiency.

The aim of the invention is to increase efficiency and simplify manufacturing technology.

This goal is achieved by the fact that the pole of the electric machine, containing a core of ferromagnetic electrically conductive material in the form of separate longitudinally spaced and insulated from one another sections, which are the rods of the compensation winding, from the end sides of the core and from the side facing the bed, are magnetically conductive elements, equipped with lined nako. with a tip, while the tip and magnetically conductive elements have wedge-shaped protrusions and depressions by means of which they articulate with each other, and at least one spring is placed between the core sections.

The drawing shows a pole of an electric machine, a cross section.

The pole of the electric machine contains a core of ferromagnetic electrically conductive material in the form of separate longitudinally arranged Sections 1, isolated from each other by an insulation layer 2.

At the ends of the core are two magnetically conductive elements (cheeks) 3 having wedge-shaped protrusions 4 and 5, as well as holes with a thread 6 for attaching the pole to the bed. The core sections 1 are composed of ferromagnetic sheets electrically connected to each other at the ends by welding. Between the cheeks 3 by means of a spring 7 a packet of sections 1, intersection insulation 2 and case insulation 8 is clamped

11. The back 12 and tip 13 with magnetically saturating sections 14 are prewoven and glued under the press. The back and tip also have protrusions and troughs through which they articulate with the cheeks.

The spring 7 can be placed between the sections of the pole or between the cheek and the section. The dotted line shows the pole excitation coil.

In the operating mode, when currents flow through the field winding and sections of the compensation winding, the resulting magnetic flux of the machine is formed in the pole, which, interacting with the magnetic field of the armature, creates an electromagnetic moment. Surface losses of the machine are reduced due to the performance of the pole piece lined. Transient processes associated with a change in the main magnetic flux are accelerated due to the execution of the tip, sections and back of the pole lined from separate ferromagnetic sheets.

The use of the proposed design of the magnetically conductive elements (cheeks, backs) and the tip, between which there is a wedge connection, eliminates the compression of the package of ferromagnetic sections with tie rods coated with insulation, and this leads to an increase in the cross-section of current-carrying ferromagnetic sections of the core, which increases the efficiency .

Improving the manufacturability of the proposed design compared with the known manifests itself mainly in the replacement of parts subjected to machining, stamped parts. So, in the known pole, the backrest is used for fastening the pole, and therefore it is necessary to process the surfaces facing the bed and the ferromagnetic sections. In addition, they process “locks” on the back and cheeks for their mutual fastening. In the proposed design, the backrest is freed from mechanical loads and can be made of stamped steel sheets. In addition, the presence of the tip removes the processing of the pole along an arc of a circle. Thus, the proposed pole design is more technologically advanced and reduces metal waste by reducing the machining of the pole parts.

VNIIIPI Order 239/47 Circulation 6'41 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

POLE OF AN ELECTRIC MACHINE, containing a core of ferromagnetic electrically conductive material in the form of separate sections longitudinally and insulated from one another, which are compensation winding rods, from the end sides of the core and from the side facing the bed, there are magnetically conductive elements, characterized in that, for the purpose of increasing efficiency and simplifying manufacturing technology, it is equipped with a lined tip, while the tip and magnetically conductive elements have wedge-shaped protrusions and depressions, by means of which they are joined together, and at least one spring is placed between the core sections. 9' If