DE102008016890A1 - Rotor for use in e.g. synchronous motor, has end plate with base body comprising circular base area, and circular positioning aid arranged in region of outer periphery of base body, where plate is arranged at front side - Google Patents

Abstract

The rotor (1) has a set of permanent magnets and an end plate (4) arranged at one of the pair of front sides (2, 3). The end plate has a base body with a circular base area, and a circular positioning aid is arranged in a region of outer periphery of the base body. The aid is continuously formed over the outer periphery of the base body. A balancing weight (7) i.e. adhesive weight, is arranged at the aid for balancing the rotor, and the balancing weight is adhered on the aid by using an adhesive film.

Description

The The invention relates to a rotor for a dynamoelectric machine, wherein the rotor has two end faces has and at least on one of the two end faces an end plate is arranged. Furthermore, the invention relates to a dynamoelectric Machine with such a rotor.

Dynamo Electric Machines essentially have a rotor, a stator Rotor bearing system and other components. The rotor points i. d. R. on a laminated core, which, for example, a steel shaft is pressed on. The stator has i. d. R. also a laminated core on, wherein the stator is that component, which a bestrombare Winding has. Is the dynamoelectric machine as a permanent magnet excited Formed synchronous machine, the rotor has a plurality of permanent magnets on, which are arranged either inside or on the surface of the laminated core.

Of Furthermore, the rotor has at its two end-side end faces each an end plate, which u. a. for electrical insulation and for clamping the rotor, in particular the laminated core of the Rotor, serves.

Everyone body rotating about a fixed axis has an imbalance, by vibrations or vibrations, noise, wear or the Product life makes noticeable. The mentioned disadvantages will be avoided by eliminating the imbalance.

A Elimination of imbalance is usually done by balancing the Mass distribution of the rotating body. The balance can be positive or be negative. The positive balance balancing weights applied, such. B. by welding, gluing or screwing of weights. When negative balance masses z. B. by Drilling, grinding or milling ablated.

rotors or runner Of dynamoelectric machines are often balanced, in which the Laminated core of the finished rotor in the form of holes, surface removal or notches is removed. They are usually dynamically balanced, d. H. it may have to Material at both ends of the runner be removed, the material erosion i. d. R. at the End disk done.

The Method of material removal is rotors, which permanent magnets However, have difficult, as resulting in the removal of metal chips on the magnetic surface of the rotor can stick.

A different possibility is to attach clamping weights to the rotor ends, wherein the clamping weights are attached to existing geometries. To Usually holes are used in the rotor laminations of the laminated core, the to reduce the moment of inertia serve. The balancing can only be done at defined locations.

A another possibility of balancing is known in electric asynchronous machines, wherein for example, by casting a balancing bolt to the rotor, in particular at the short-circuit ring, a balance is made. In this process are on the Balancing washers placed washers and fixed with a machine. This fastening works over Upsetting the balancing bolt. A balance can only on the bolt, d. H. at firmly defined locations.

The Object of the present invention is to provide a rotor for a dynamoelectric Machine to provide a variable and simple balance allows. Another object of the invention is to provide a dynamoelectric To provide machine with such a rotor.

The Tasks are with the features of claims 1 and 11 solved. Advantageous developments can be found in the dependent claims.

Of the rotor according to the invention has two end faces, wherein at least on one of the two end faces an end plate is arranged. As a rule, on each end face of the rotor arranged an end plate to u. a. a safe electrical insulation and to ensure tensioning of the rotor.

According to the invention the end plate a body with a circular Floor space on. The shape of the base of the main body of End disk corresponds to the shape of the rotor from a front side Consideration. In the area of an outer circumference of the basic body is an annular Positioning aid for positioning and fixing balancing weights arranged to eliminate imbalances of the rotor. The end plate points therefore, a special geometry that allows balancing weights quick and easy to attach to the positioning aid.

advantageously, is the ring-shaped Positioning aid consistently over the outer circumference of the basic body educated. As a result, the balancing area comprises the complete wheel circumference from 360 ° of End disk. Thus, it is possible directly and at any point of the positioning aid balancing weights to install.

At the annular Positioning aid is at least a balance weight for balancing arranged the rotor, the balance weight preferably to the annular Positioning aid, in particular by means of an adhesive film, glued is. Adhesive technology is a fast, simple and inexpensive connection technique. The balance weights, also referred to as adhesive weights are for example, as in the balancing of a car tire directly glued to the point to be balanced. This procedure becomes more accurate balanced, as a correction of the imbalance exactly in the required angular position he follows.

The End disk is axially adjacent to a rotor core of the rotor at one Attached to the shaft, the size of the circular base of the main body of the End plate substantially the size of the frontal surfaces of the Rotor, in particular of the rotor core, corresponds. The rotor core is made up of a large number of electrical steel sheets for eddy current losses to avoid in the rotor. The annular Positioning aid is on a side facing away from the rotor laminated core of the basic body arranged the end plate. Thus, a balancing on one of Outside accessible page of the rotor possible.

In a first embodiment is an acute angle between the body and the annular Positioning aid on the side facing away from the rotor laminated core the body trained, being responsible for the acute angle in particular applies: 80 ° ≤ α <90 °. As a result, forces act on the attached balance or adhesive weights, which in higher centrifugal force counteract the rotor of this and the balancing weights at the Hold end disc.

In a second embodiment is a right angle between the body and the annular one Positioning aid on the side facing away from the rotor laminated core the body trained, in addition at the annular Positioning aid in the direction of the shaft of the rotor a protruding edge is trained. This edge also causes, with increased centrifugal forces of the Rotor balancing weights are held at the end plate.

advantageously, is the end plate with basic body and annular Positioning aid formed as a one-piece component. Especially the end plate is made by deep drawing a sheet or die casting.

The inventive dynamoelectric machine comprises a stator and a rotor according to the invention, wherein the stator a multi-phase, especially a three-phase, winding for connection to a three-phase network. The rotor is equipped with an end disk formed, which has a special geometry or shape, which makes it possible one or more balance weights to eliminate imbalance (s) quick and easy to install.

Especially the dynamoelectric machine is designed as a permanent magnet synchronous motor, wherein the rotor has a plurality of single and / or multi-part permanent magnets having, in the interior or on the surface of the laminated core of the rotor are arranged.

The Invention allows a direct balancing of the rotor with balancing weights, which can be attached directly to the point to be balanced. This is ensures accurate balancing because a correction of the imbalance exactly in the required angular position the rotor takes place. A conversion of measured weight values is not necessary, since they are balanced at the directly measured point can. Furthermore, the balancing process is faster, because not rebalanced often must be, but directly at the affected point the measured Balance weight is attached. Also is the material use to correct the imbalance lower.

In The following description describes further features and details the invention in conjunction with the accompanying drawings with reference to embodiments explained in more detail. there are features and relationships described in individual variants basically to all Embodiments transferable. In the drawings show:

1 a rotor according to the invention in a lateral sectional view,

2 a rotor according to the invention in a sectional view from the front,

3 a first embodiment of an end plate,

4 a second embodiment of an end plate,

5 a third embodiment of an end plate.

1 shows a rotor according to the invention 1 in a lateral sectional view. The rotor 1 has a rotor core 8th on, which consists of a plurality of layered in the axial direction of electrical steel sheets. The rotor core 8th is on a wave 9 arranged, for example, pressed on.

The rotor 1 indicates at its two front sides 2 and 3 one end plate each 4 on. The end slices 4 are together with the rotor laminated core 8th by means of bolts 12 braced. At the end discs 4 is each a balance weight 7 arranged to eliminate imbalance.

2 shows a rotor according to the invention 1 in a sectional view from the front, in particular from the front side 2 (please refer 1 ). The end disc 4 is shown from the front and has a body 5 and a positioning aid 6 on. The main body 5 is formed circular in its base, wherein the size or the diameter of the base body substantially the diameter of the rotor lamination stack 8th (please refer 1 ) corresponds.

The positioning aid 6 is in the range of an outer circumference of the main body 5 arranged annularly and serves for positioning and fixing of balance weights 7 for removing imbalances of the rotor. The end disc 4 therefore has a special geometry that allows balancing weights 7 quick and easy on the positioning aid 6 to install.

The annular positioning aid 6 is continuous over the outer circumference of the main body 5 educated. As a result, the balancing area encompasses the complete wheel circumference of 360 ° of the end disk 4 , At the positioning aid 6 is an example of a balance weight 7 appropriate. Depending on the existing unbalance can be any number and at any point of the end plate 4 counterweights 7 be arranged.

The annular positioning aid 6 is at one of the rotor core 8th (please refer 1 ) facing away from the body 5 the end plate 4 arranged. Thus, a balancing on an externally accessible side of the rotor 1 possible.

3 shows a first embodiment of an end plate 4 , where in 3 to 5 in each case only a section of the end plate 4 is shown.

At the annular positioning aid 6 is the balance weight 7 arranged, with the balance weight 7 to the positioning aid 6 by means of an adhesive film 11 is glued. Adhesive technology is a fast, simple and inexpensive connection technique. The balance weight 7 , also known as adhesive weight, is glued directly to the point to be balanced. The balance weight 7 Of course, by means of other connection techniques (both detachable and not solvable) to the end plate 4 be appropriate, for example by means of screws or clamps.

4 shows a second embodiment of an end plate 4 , Between the main body 5 and the annular positioning aid 6 is at the rotor core 8th opposite side of the body 5 (please refer 1 ) an acute angle α is formed, wherein for the acute angle α in particular: 80 ° ≤ α <90 °. As a result, forces act on the attached balancing or adhesive weights 7 , which at higher centrifugal force of the rotor 1 counteract this and the balancing weights 7 at the end disc 4 hold.

5 shows a third embodiment of an end plate 4 , In the third embodiment, a right angle between the main body 5 and the annular positioning aid 6 formed, in addition to the annular positioning 6 in the direction of the wave 9 of the rotor 1 (please refer 1 ) a protruding edge 10 is trained. This edge 10 also causes at elevated centrifugal forces of the rotor 1 the balance weights 7 at the end disc 4 being held.

Claims (12)

Rotor ( 1 ) for a dynamoelectric machine, wherein the rotor ( 1 ) two end faces ( 2 . 3 ) and at least on one of the two end faces ( 2 . 3 ) an end plate ( 4 ), characterized in that the end plate ( 4 ) a basic body ( 5 ) having a circular base surface, wherein in the region of an outer circumference of the base body ( 5 ) an annular positioning aid ( 6 ) is arranged. Rotor ( 1 ) according to claim 1, characterized in that the annular positioning aid ( 6 ) throughout the outer circumference of the body ( 5 ) is trained. Rotor ( 1 ) according to claim 1 or 2, characterized in that on the annular positioning aid ( 6 ) at least one balance weight ( 7 ) for balancing the rotor ( 1 ) is arranged. Rotor ( 1 ) according to claim 3, characterized in that the balance weight ( 7 ) to the annular positioning aid ( 6 ) is glued. Rotor ( 1 ) according to claim 4, characterized in that the balance weight ( 7 ) by means of an adhesive film ( 11 ) is glued. Rotor ( 1 ) according to one of the preceding claims, characterized in that the end disk ( 4 ) axially adjacent to a rotor core ( 8th ) of the rotor ( 1 ) on a shaft ( 9 ), wherein the annular positioning aid ( 6 ) on a rotor laminated core ( 8th ) facing away from the body ( 5 ) is arranged. Rotor ( 1 ) according to claim 6, characterized in that an acute angle (α) between the Basic body ( 5 ) and the annular positioning aid ( 6 ) at the rotor core ( 8th ) facing away from the body ( 5 ) is formed, wherein for the acute angle (α) in particular: 80 ° ≤ α <90 °. Rotor ( 1 ) according to claim 6, characterized in that a right angle (β) between the basic body ( 5 ) and the annular positioning aid ( 6 ) at the rotor core ( 8th ) facing away from the body ( 5 ) is formed and on the annular positioning ( 6 ) in the direction of the shaft ( 9 ) of the rotor ( 1 ) a protruding edge ( 10 ) is trained. Rotor ( 1 ) according to one of the preceding claims, characterized in that the end disk ( 4 ) with basic body ( 5 ) and annular positioning aid ( 6 ) is formed as a one-piece component. Rotor ( 1 ) according to claim 9, characterized in that the end plate ( 4 ) is made by deep drawing or die casting. Dynamoelectric machine with a stator and a rotor ( 1 ), wherein the rotor ( 1 ) is formed according to one or more of claims 1 to 10. A dynamoelectric machine according to claim 11, wherein the rotor ( 1 ) has a plurality of permanent magnets and the dynamoelectric machine as a permanent magnet synchronous machine, in particular synchronous motor, is formed.