DE102006020149A1 - Synchronous salient pole machine e.g. ring motor, for use in ball mill, has yoke with yoke section arranged between two salient poles, where yoke section has radial air passage that radially separates air portion - Google Patents

Abstract

The machine has a rotor rotatable around an axis in a stator, where the stator defines an axial direction and radial directions. The rotor has a set of axially extending salient poles, which are distributedly arranged over a circumference formed around the axle. Field coils are wound around the salient poles, and a yoke section (12) of a yoke is arranged between two salient poles. The yoke section extends over the circumference, where the yoke section has a radial air passage (22) that radially separates an air portion (26). An independent claim is also included for a method for cooling a synchronous salient pole machine.

Description

The The invention relates to a Synchronschenkelpolmaschine, in particular for the gearless drive of tube mills, with a stand and a runner, the one in the stand is rotatable about an axis through which an axial direction and radial directions are defined, the runner comprises a plurality of axially extending salient poles, the above a circle circumference formed around the axis are distributed, and around which excitation coils are wound, and wherein between each two salient poles a yoke portion of a yoke is formed, segmentally over the Circumference extends. The invention also relates to a method for cooling a synchronous kingpin machine.

A Synchronschenkelpolmaschine as described above is from the Known in the art and is referred to as a ring motor. Around a tube mill To drive, the runner is over a flange ring so at the tube mill attached that the mill body as Rotor hub serves. The runner himself consists of a multitude of layered layers Sheets, which together with a solid support plate to the pole segments are tense. The pole segments are by means of the carrier plate so on the circumference of the mill attached a closed ring around the mill tube form. Each segmental sheet has distinct poles, called salient poles, the above a yoke segment are interconnected, which is the magnetic River between the poles leads. On the salient poles, the excitation coils are arranged.

Usually These machines are powered by an axial air flow through the machine cooled, which enters the machine as cold air on one side and as Warm air at the opposite Side exit. This is called "one-sided Ventilation " Air duct is formed by the so-called pole gap, which limits is determined by the stator diameter, the two flanks of the exciter winding and the Jochaußendurchmesser. The air sweeps the surface the poles and the exciter winding over, taking thereby the there arising Losses and cools so the runner. The cooling of the stand is done primarily via the winding heads the stator winding, over the bore surface and possibly over axial cooling channels in the stator yoke. The stator laminated core is intermarried, contains so no ventilation slots.

• – Die Mindestluftmenge, die notwendig ist zum Abführen der entstehenden Verlustwärme, ist gegeben durch die maximal zulässige Luftaufheizung. Da die Pollücken nur eine begrenzte Durchtrittsfläche für den Kühlstrom zur Verfügung stellen, kann bei dieser Art der Luftführung die Luftmenge mit Rücksicht auf die Luftgeschwindigkeit und den Druckabfall im Kühlkanal jedoch nicht beliebig erhöht werden.
• – Ab einer bestimmten Maschinenlänge kann die Ständerwicklung nicht mehr ausreichend entwärmt werden.

This ventilation concept has the following disadvantages:

• - The minimum amount of air that is necessary to dissipate the resulting heat loss is given by the maximum permissible air heating. However, since the pole gaps provide only a limited passage area for the cooling flow, the air flow can not be arbitrarily increased in this type of air ducting with regard to the air velocity and the pressure drop in the cooling duct.
• - From a certain machine length, the stator winding can not be sufficiently cooled.

The one-sided ventilation can therefore only with relatively short machines with correspondingly small torque and relatively low loss. Become machines with larger torques and associated higher losses demanded, so must therefor in this ventilation concept larger diameter to get voted.

at a two-sided ventilation are stand and possibly rotor laminations divided into partial laminated cores, separated by ventilation slots are separated. The cooling air flows from both ends axially into the machine, is deflected there in radial direction in the ventilation slots of the stator core and exits as hot air on the back of the stand. This corresponds to the state of the art for the ventilation system of electrical Large machines. For ring motors, the - how described above - by the pole gap are cooled, is this ventilation system but not suitable.

It have to Therefore, new ways to cool a Synchronschenkelpolmaschine be found.

It Object of the invention, a synchronous kingpin according to the preamble according to claim 1 to the effect that the cooling improves is, and at the same time, an improved method for cooling a Synchronschenschenpolpolmaschine provide.

The The object is achieved by a Synchronschenkelpolmaschine according to claim 1 and a method for cooling such a synchronous kingpin according to claim 7 solved.

According to the invention at least one yoke section has a radial air passage.

Of the Air passage connects the space radially inside the yoke portion with the space radially outside the yoke portion, i. with the pole gap. The pole gap can thus from the interior of the runner ago ventilated and the excitation coils do not have to more by an airflow running axially in the pole gap chilled become.

The inventive method based on that cooling air axially through the rotor to all radial air passages is guided so that at the radial air passages respectively a part of the cooling air is derived radially.

The axial conduction of the air is preferably carried out in the area radially inside the yoke portion, wherein as in conventional synchronous leg polyners there open spaces are formed, through which the air can flow.

at a preferred embodiment is the cooling two-sided: salient poles and yoke sections are each at the Sides of a carrier plate arranged. On both sides of the carrier plate are radially inside the yoke sections axially extending free spaces, through which the Air from both axial sides of the rotor can flow to the support plate. The radial air outlets branches of the open spaces off and can a part of the original towards the backing plate out Remove air radially towards the excitation coils and lead past them.

at a preferred embodiment gets the air out of the runner in the stand passed on radially. For this purpose, the stator core is preferably by means of so-called web plates divided into partial lamination packages. The cooling air then flows So from both ends of the runner in the space within the Jochringes, becomes radially outward deflected and enters through the ventilation slots in the yoke ring in the Pole gap. There sweeps over she the surface the exciter winding in the radial direction, passes through the air gap in the ventilation slots of the stator core and leaves the machine over the back of the stand.

By this type of airflow is guaranteed that the whole machine evenly with cooling air constant temperature is supplied. At the same time it eliminates the one-sided ventilation restrictions in terms of maximum length the machine.

The Providing a radial air passage in the rotor can done in different ways. In the conventional Structure of a yoke of sheets, which in the axial direction to each other Following, a radial air passage becomes best provided by omitting sheets. So includes a yoke portion at least two axially extending one behind the other Yoke parts, between each of which a gap is formed. This gap presents then ready the radial air passage.

in this connection are the yoke parts of at least one yoke section formed from sheets, each in one piece with a sheet used in the formation of a salient pole becomes. Usually Segmented sheets used, i. such sheets, which take the form of several Salient poles (e.g., four salient poles) and a yoke segment mimic with several yoke sections. To form the gap however, these segmented sheets are used exclusively where the Yoke parts are provided. In the area of the gap will be in the axial sequence the sheets used only such sheets, which are the salient poles form, which should extend axially continuously.

following becomes a preferred embodiment of the invention with reference to the drawings, in which:

1 FIG. 2 shows a cross-section through a four-pole pole segment of the rotor of a synchronous shank pole machine according to the invention, FIG.

2 an axial cross section through the rotor of Synchronschenkelpolmaschine according to the invention according to the section II-II in 1 represents,

3A illustrates a first type of sheet metal used for the construction of the Synchronschenkelpolmaschine invention in plan view, and

3B a second type of a sheet used to build a synchronous Schenkelpolmaschine invention illustrated in plan view.

In the present case, it is particularly concerned with the cooling of the rotor of a synchronous shank pole machine. Such a rotor rotates about an axis and is usually built quasi rotationally symmetrical. 1 shows a section of a circular circumference of a rotor, namely a four-pole pole segment, which consists of a carrier plate attached to a rotor core package. As the name already clarifies, the four-pole pole segment comprises 1 four poles 10 with yoke sections arranged therebetween 12 , Between the Po len is a pole gap 14 , The pole gap 14 is partly used to exciting coils 16 to provide which around the poles 10 are wound. The excitation coils 16 are only in the two in 1 right poland 10 schematically, showing the usual current direction symbols, such as the current in the excitation coils 16 flows. Due to the ohmic resistance of the excitation coils 16 it comes to a warming of the same. It is the use of a coolant required. In the prior art, cooling air is axial, ie in 1 perpendicular to the plane of representation, through the pole gaps 14 directed.

The invention uses a different one sentence:
2 represents an axial cross-sectional view through the central yoke section 12 of the pole segment 1 according to section II-II. The in 2 The arrangement shown is symmetrical. In the axial center of Synchronschenkelpolmaschine there is a support plate 18 , On the carrier plate 18 The laminated from the Polsegmentblechen rotor packages are attached. Because the section through the middle yoke section 12 runs, is in 2 its axial course illustrates: The yoke segment consists of a plurality of yoke parts 20 , The yoke thus does not extend continuously axially but is interrupted: between the yoke parts 20 there are gaps, each through a radial air passage 22 is formed. Through the radial air outlets 22 the arrangement differs according to 2 of those of the prior art. As already existing in the prior art, is below the yoke section 12 , ie in the present case below the yoke parts 20 formed an axially extending free space. This space is now used according to the invention to pass the cooling air (see large arrows 24 ). The cooling air sweeps the radial passages 22 passing, whereby a portion of the cooling air, by the small arrows 26 is illustrated by the radial air passages 22 flows. As in 1 to see, from the axial air flow (arrow 24 ) branched off (arrow 26 ) Air in the pole gap 14 and cools the excitation coils 16 (See arrow 28 , especially in 1 ). The air is distributed evenly over the axial length of the machine.

The yoke parts 20 do not close directly to the carrier plate 18 on, so that directly on both surfaces of the carrier plate 18 a radial air passage is provided through which all the residual air flows.

Of the Structure of the pole segment is basically as in the prior art by using single sheets.

In the prior art individual sheets 30 used as in 3A are shown. Each single sheet has four sections 10 ' for the poles and corresponding sections 12 ' for the yokes. The invention uses the sheets 30 also, but only for the formation of the yoke parts 20 , In the area of the radial passages 22 become the sections 12 ' not required. Therefore, four partial sheets 32 according to the 3B used, which almost exclusively a section 10 '' for each include a pole. The stratification of the sheets is in 2 (see background of the yoke parts 20 ) symbolized by the vertical hatching.

The ratio of the number of sheets used 30 to the number of sheets used 32 is equal to the ratio of the axial length of the yoke parts 20 to the axial length of the radial passages 22 , It is set so that the function of the yoke parts 20 So the exercise of the task of a yoke 12 (Conducting magnetic flux), is sufficiently ensured, on the other hand, however, a sufficient amount of cooling air through the radial passages 22 (Arrow 26 , Arrow 28 ) to the excitation coils 16 can get.

Claims (7)

Synchronschenkelpolmaschine, in particular for the gearless drive of tube mills, comprising a stator and a rotor which is rotatable in the stator about an axis through which an axial direction and radial directions are defined, wherein the rotor has a plurality of axially extending salient poles ( 10 ), which are arranged distributed over a circumference formed around the axis, and about which exciter coils ( 16 ) are wound, and wherein in each case between two salient poles ( 10 ) a yoke section ( 12 ) is formed of a yoke which extends in segments over the circumference, characterized in that at least one yoke portion ( 12 ) a radial air passage ( 22 ) having. Synchronschenkelpolmaschine according to claim 1, characterized in that salient poles ( 10 ) and yoke sections ( 12 ) on both sides of a carrier plate ( 18 ) are arranged, and that on both sides of the support plate radially disposed within the yoke sections axially extending free spaces are provided by the air from both axial sides of the rotor to the support plate ( 18 ), wherein the radial air outlets ( 22 ) branch off from the open spaces and part of the air ( 26 . 28 ) radially on the exciter coils ( 16 ) pass by. Synchronschenkelpolmaschine according to claim 2, characterized in that directly on both sides of the carrier plate ( 18 ) each have a radial air passage ( 22 ) is provided, through which the up to the support plate ( 18 ) air ( 26 ). Synchronschenkelpolmaschine according to one of the preceding Claims, characterized in that also the stand has air outlets, the emerging from the radial air passages of the yoke portion Derive air. Synchronschenkelpolmaschine according to any one of the preceding claims, characterized in that the at least one yoke ( 12 ) At least two successively axially extending yoke parts ( 20 ), between each of which a gap is formed, which has a radial air passage ( 22 ). Synchronschenkelpolmaschine according to claim 5, characterized in that the yoke parts ( 20 ) for at least one yoke section ( 12 ) made of sheet metal sections ( 12 ' ) are formed, each in one piece with a sheet metal section ( 10 ' ) are at least one salient pole. Method for cooling a synchronous kingpinning machine according to one of the preceding claims, characterized in that cooling air ( 24 ) axially through the rotor to all radial air passages ( 22 ), so that at the radial air passages ( 22 ) Each part of the cooling air is discharged radially.