DE102007004562A1 - Isolation lamella for electrical machine anchor, particularly electric motor anchor or electrical generator anchor, contains ferromagnetic material with modified plastic and powder composite material - Google Patents

Abstract

The isolation lamella (1) contains ferromagnetic material with modified plastic and powder composite material. The insulating lamella contains ferromagnetic ferrite. The ferromagnetic material is magnetically soft material. The isolation lamella has a spaced teeth (4), each with a radial inner tooth neck (6) for retaining an anchor winding and a radial head outer tooth (7) in circumferential direction.

Description

State of the art

The The invention relates to an insulating lamella according to the preamble of the claim 1 and an electric machine anchor according to claim 10.

Known Electric motors or generators consist of a stator and a Radially arranged within the stator rotatably arranged anchor with a Armature shaft. The anchor includes an anchor package which rotatably sitting on the armature shaft. At both axial ends of the anchor packet is a so-called insulating lamella provided, the damage of the winding wire at the sharp-edged laminations during the winding process should prevent. Known insulating lamellae are made of plastic and are therefore characterized by diamagnetic properties, this means the known insulating lamellae weaken the density of the magnetic Field lines, reducing the power of one with an insulating louver equipped electric motor compared to an electric motor is reduced without insulating lamella. For electric motors without insulating lamella However, there is the mentioned Risk of damage the armature winding. There are also electric machines, at where the armature is designed as a stator.

Disclosure of the invention

Technical task

Of the Invention is therefore based on the object, an insulating lamella for one Electrical machine anchor indicate with the negative impact on the magnetic field and thus the power of the electric Machine to be reduced. Furthermore, the task is a Specify electric machine anchor, with the efficiency of a Electric machine increased can be.

Technical solution

Regarding The insulating lamella is the object with the features of the claim 1 solved. With regard to the electric machine anchor, the task with the Characteristics of claim 10 solved.

advantageous Further developments of the invention are specified in the subclaims. In the context of the invention, all combinations of at least fall two of those specified in the description, claims and / or figures Characteristics.

Of the Invention is based on the idea, the magnetic flux through the insulating lamella therethrough to improve that the insulating lamella such is formed so that it has ferromagnetic properties. This is achieved in that the insulating lamella invention ferromagnetic Contains material. For this purpose, insulating lamellae are to be counted, which are completely made ferromagnetic material are made. Preference is given as ferromagnetic Material soft magnetic material used, so a material that can be easily re-magnetized. Drawing soft magnetic materials characterized by a low coercivity (<1000 A / m). Unlike hard magnetic Materials with high coercive field strength thus become the hysteresis loss kept small during remagnetization. As soft magnetic materials both used metallic as well as ceramic materials. Prefers The metallic soft magnetic materials are based on the ferromagnetic metals: iron, cobalt and nickel. ceramic Soft magnetic materials are preferably ferrites based on Metal oxides. In the following the invention is based on a trained as an internal rotor Electric motor anchor described. The explanations apply to one Generator accordingly. It is also possible, the inventive idea in an external rotor machine to realize. Furthermore, the electric motor armature can also act as a stator be formed.

Next the complete Formation of the insulating lamella made of ferromagnetic, especially soft magnetic Material is the use of ferromagnetic material, in particular of soft magnetic material as a filler, in particular as an additive preferred in plastics. In this case, for example, a plastic granules Added iron particles and the mixture of plastic granules and iron particles are then injection molded, for example processed. An advantage here is an embodiment in which the insulating lamella Completely made of plastic with added ferromagnetic, in particular soft magnetic Material exists.

In Development of the invention is provided with advantage that the Insulating lamella ferromagnetic, in particular soft magnetic Contains ferrite or completely is formed from this. The ferromagnetic, in particular soft magnetic ferrite can also be used as a filler, be used in particular in a plastic.

For reasons of stability and weight saving reasons, it is advantageous if the insulating lamella contains a powder composite material or is formed from a powder composite material. In this case, the powder composite material ferromagnetic, in particular soft magnetic material to improve the magnetic flux. As a powder composite material, for example, iron particles can be used under the use be pressed by pressure and temperature.

The Insulating lamella comprises in development of the invention a variety of circumferentially spaced teeth, in particular extend radially outward from a central hub. It forms the radially inner portion of a tooth of a tooth neck for receiving an armature winding, in particular a winding head of the armature winding. The tooth head closes the neck of the tooth outside from and is preferably formed wider in the circumferential direction than the neck of the tooth. In the circumferential direction between two adjacent teeth in each case a receiving groove for carrying out the armature winding in the direction the laminated core (plate pack) formed. To the magnetically conductive Properties of the insulating lamella with ferromagnetic material, in particular soft magnetic material optimally exploit is provided in a further development of the invention that the tooth heads of the Teeth the respective tooth neck or at least one radially inner portion of the respective tooth neck project in the axial direction. The tooth heads are in axial Direction preferably dimensioned such that the axial extent at least the axial extent of the winding heads of the armature winding corresponds. This means that the tooth heads in the axial direction at least up to the axial end of the armature winding pass. Preferably overhang the tooth heads the winding heads one piece far in the axial direction, causing the magnetic flux even further guided in the axial direction can be. This makes it possible with the same size of an electric motor armature, winding wire material save as the axial extent of the winding wire due to the extended axially tooth tips reduced at the same size is. As a rule, the power of the electric motor is the same Frame size additionally increased. For example, a power adjustment (power reduction) can be done by reducing the overall length respectively. The tooth heads preferably additionally protrude in the circumferential direction the between the tooth heads formed Wicklungsnuten into to the largest possible guide surface for the magnetic flux Offer. To avoid magnetic short circuits, however, the tooth heads are preferably spaced circumferentially, or otherwise expressed it sits down between your teeth formed groove also continues between the tooth tips in the axial direction. Through this groove of the winding wire (in particular insulated copper wire) introduced in the winding process become. The described development can, for example, also be realized in an external rotor, wherein then the teeth extend radially inward.

Winding damage can occur in Development of the invention can be reduced by the fact that the front page the tooth necks is rounded, in particular such that the apex line of the rounding in the radial direction and the rounding extends in the circumferential direction.

Additionally or Alternatively, it is advantageous to form the insulating lamella like a claw. These are the teeth with an extending in the radial and axial directions curvature so that the axial extent of the teeth with increasing radial distance increases to the axis of rotation. This will cause a mechanical stabilization the tooth heads Realized and at the same time can reduce the risk of damage of the winding wire are minimized. Due to the integrated curves (Both the pointing in the axial direction, as well as in the circumferential direction pointing curves and the associated cross-sectional enlargements the tooth heads and / or the cervicals gets additional saturation effects the magnetic material is prevented.

Further the invention relates to an electric motor armature with an armature winding, wherein the electric motor armature with at least one, preferably with two Insulating louver is fitted, which the anchor package in opposite Limit axial directions. On the front sides of the insulating lamellae lie the winding heads the armature winding on. In particular, the winding heads are in one radially inner portion of the tooth necks. It is preferably provided that the windings are sunk in the axial direction within the insulating lamella, the is called, that the tooth heads the insulating lamella in the axial direction at least up to the maximum Axial extension of the winding heads zoom protrude. The electric machine anchor according to the invention with insulating lamella can be used both as a rotor, for example in mechanical DC machines, or as a stator, for example in electronic Commutated machines are used.

Brief description of the drawings

Further Advantages, features and details of the invention will become apparent the following description of preferred embodiments and by reference the drawings. These show in:

1 : A perspective view of an insulating lamella according to the invention made of plastic with soft magnetic fillers and

2 FIG. 2 is a partial cross-sectional schematic view of an electric motor armature with two axially spaced insulating laminations incorporating ferromagnetic material. FIG.

Embodiments of the invention

In the figures, the same components and Components with the same function with the same reference numerals.

In 1 is a perspective view of an insulating lamella 1 shown for an electric motor. In the insulating lamella shown is a plastic injection molded part, wherein the plastic soft magnetic iron particles are added as a filler, so that the insulating lamella shown 1 has soft magnetic properties, that is easily ummagnetisierbar and conducts the magnetic flux.

The insulating lamella 1 has a central hub section 2 with a passage opening 3 for receiving an armature shaft, not shown. The insulating lamella 1 can be fixed in a conventional manner rotatably on the armature shaft. It is also conceivable the insulating lamella 1 integrally formed with the armature shaft.

To the hub section 2 are eight teeth extending in the radial direction 4 formed. Every tooth 4 consists of a directly to the hub section 2 adjacent cervix 6 which is in a radially outer area in a tooth tip 7 passes. Between two circumferentially adjacent tooth necks 6 is shown a substantially V-shaped, extending in the axial direction groove for receiving armature windings. The tooth heads 7 surmount the grooves 5 in the circumferential direction a piece and thus form a kind of groove roof. Between each two adjacent tooth heads 7 however, it remains an axial gap 8th free, through which the winding wire can be threaded during the winding process.

The winding wire runs in the axial direction within a groove 5 and is deflected in the frontal region of the insulating lamella and in the opposite axial direction by another groove 5 recycled. To avoid damage to the winding wire is every tooth neck 6 The ends are rounded, with the apex lines 9 extend the curves in the radial direction. In other words, two parallel Zahnhalsseitenflächen 10 . 11 the tooth necks 6 via a frontal rounding 12 merged.

As is also apparent 1 results, has the insulating lamella 1 a claw-like shape. This is achieved by having the tooth necks 6 are formed radially outwardly curved in the axial direction and in the radially outer tooth heads 7 flow smoothly. Every tooth head 7 projects beyond a radially inner portion 13 the associated tooth neck 6 in which, in the wound state, the winding wire rests. As will be explained later, the axial extent of the teeth heads 7 so dimensioned that they project beyond the winding wire in the axial direction.

In 2 is a partial sectional view of an electric motor armature 14 with armature shaft 15 shown. Especially with small engines, the armature shaft 15 seconded rotatably in a pole housing containing permanent magnets.

The electric motor armature 14 includes a rotationally fixed on the armature shaft 15 seated laminated lamella package 16 , which at both axial end faces of each an insulating lamella 1 like these in 1 is shown in detail, is limited. It can be seen that the tooth necks 6 the teeth 4 bent like a claw in the axial direction. It can also be seen that the tooth heads 7 the schematically indicated winding heads 17 project beyond the armature winding in the axial direction.

Claims (11)

Insulating lamella for an electric machine anchor ( 14 ), characterized in that the insulating lamella ( 1 ) contains ferromagnetic material. Insulating lamination according to claim 1, characterized in that the insulating lamella ( 1 ) contains a plastic modified with ferromagnetic material. Insulating lamella according to one of claims 1 or 2, characterized in that the insulating lamella ( 1 ) contains ferromagnetic ferrite. Insulating lamination according to claim 1, characterized in that the insulating lamella ( 1 ) contains a powder composite with ferromagnetic material. Insulating lamella one of the preceding claims, characterized characterized in that the ferromagnetic material is soft magnetic Material is. Insulating lamella according to one of the preceding claims, characterized in that the insulating lamella ( 1 ) circumferentially spaced teeth ( 4 ) each having a radially inner tooth neck ( 6 ) for receiving an armature winding and a radially outer tooth tip ( 7 ) having. Insulating lamella according to claim 6, characterized in that the axial end face of the dental neck ( 6 ) with a circumferentially extending rounding ( 12 ) is provided. Insulating lamella according to one of claims 6 or 7, characterized in that the tooth head ( 7 ) at least one radially inner portion ( 13 ) of the axial end face of the dental neck ( 6 ) surmounted. Insulating lamella according to one of claims 6 to 8, characterized in that the tooth neck ( 6 ) in the axial direction in a rounding ( 12 ) is widening from radially inward to radially outward. Electric machine anchor, in particular electric motor anchor or electric generator anchor, with at least one insulating lamella ( 1 ) according to one of the preceding claims and with an armature winding with on one end face of the insulating lamella ( 1 ) arranged winding heads ( 17 ). Electric machine anchor according to claim 10, characterized in that the tooth heads ( 7 ) of the insulating lamella ( 1 ) in the axial direction at least up to the axial end of the winding heads ( 17 ) and preferably project beyond this in an axial direction.