DE102016220119A1 - Electric motor with a conductor guide - Google Patents

Abstract

The invention relates to an electric motor (1) comprising a fitting (10) having a plurality of teeth (20) and grooves (30) formed between the teeth (20), at least one winding (40) connected through a winding conductor (42 ), wherein at least part of the winding (40) extends within one of the grooves (30), and wherein the winding conductor (42) has a first winding conductor portion (44), a second winding conductor portion (45) and a third winding conductor portion (46) wherein the first winding conductor section (44) extends within the groove (30). It is proposed that a conductor guide (70) is provided, which leads the second winding conductor section (45) inwardly substantially in extension of the groove (30), wherein the second winding conductor section (45) once against the first winding conductor sections (44) and once is arranged angled with respect to the third winding conductor section (46) and wherein the third winding conductor section (46) extends substantially axially away from the fitting (10) and serves for electrical contacting of the winding (40).

Description

The invention relates to an electric motor with a fitting according to the species of the independent claims.

State of the art

There is already known an electric motor comprising a fitting having a plurality of teeth and a plurality of grooves. It is also known that the winding conductors forming the windings are electrically separated from the armature by an insulating means.

Disclosure of the invention

The electric motor according to the invention with the features of the main claim has the advantage that the space requirement of the electric motor is reduced. It is also to be regarded as advantageous that the winding conductors are defined out of the valve. In particular, it is thus possible to simplify the contacting of the winding conductors with an electrical control element.

The measures listed in the dependent claims, advantageous refinements and improvements of the main claim features.

It is particularly advantageous that the conductor guide has a Leiterführungsnut. Furthermore, it is advantageous that in particular the cross section of the conductor guide groove is formed corresponding to the cross section of the winding conductor. The second winding conductor section extends at least in part within the conductor guide groove. It is ensured a guide of the winding conductor section without slipping.

It is advantageous that the conductor guide is part of an insulating element which is arranged on the fitting. A simple production is possible. The ladder guide can also be added without the valve having to be redesigned. It is thus a simple implementation possible.

It is advantageous that the insulating element has a part which separates the winding and the fitting, in particular electrically. Damage to the winding conductor by the fitting or an electrical connection is thereby prevented.

It is to be regarded as advantageous that the first winding conductor section has an angle of 45 to 135 degrees, preferably 80 to 100 degrees, relative to the second winding conductor sections. Preferably, the first winding conductor section is formed substantially perpendicular to the second winding conductor sections.

It is advantageous that the third winding conductor section has an angle of 45 to 135 degrees, preferably 80 to 100 degrees, relative to the second winding conductor sections. Preferably, the third winding conductor section is formed substantially perpendicular to the second winding conductor sections.

It is advantageous that viewed in the axial direction, the fitting has an upper side and a lower side, wherein the conductor guide extends substantially along the upper side or the lower side of the fitting. It is a simple and inexpensive implementation of the conductor guide possible.

It is to be regarded as advantageous that the conductor guide with respect to the top or bottom of the fitting has a distance that changes with increasing distance from the groove, in particular increases or decreases. The guidance of the second winding conductor section through the conductor guide is improved.

It is advantageous that the insulating element has at least two segments, wherein the segments are formed on the underside and the top of the valve. The mounting of the insulating is simplified.

It is particularly advantageous that the conductor guide has a first deflection means and a second deflection means. The first deflection means is formed in the transition between the conductor guide and the groove. The second deflection means is formed at the end of the conductor guide. It is advantageous that the first deflection means and the second deflection means have a rounding, which contributes in particular to the formation of the bending of the individual winding conductor sections to each other.

The deflection means allow easy positioning of the winding conductor within the conductor guide. At the same time, within one working step they effect the angled transitions between the first winding conductor section, the second winding conductor section and the third winding conductor section.

It is advantageous that a further conductor guide is formed, wherein in particular the conductor guide and the further conductor guide extend parallel to each other. Each winding conductor has two ends. By forming a conductor guide for each winding conductor, a defined lead out of the winding conductor is made possible.

It is to be considered advantageous that a guide means is provided, which is formed to a large extent within the groove. The guide means comprises a spacer and a guide center groove. The guide center groove guides the first winding conductor section. The spacer separates the first winding conductor section from the winding. The leadership of the winding conductor from the groove is improved.

It is advantageous that two guide means are formed in a groove. The guide means have at least one guide center groove with an opening. The guide means grooves within a groove are trimmed to each other.

It is particularly advantageous that the guide means is formed on the groove bottom of a groove.

It is advantageous that the valve is part of a stator of the electric motor. The electric motor is preferably part of a fan, in particular for cooling an internal combustion engine or an electric drive motor, an HVAC blower or a coolant pump. Preferably, the electric motor is designed as an external rotor, wherein the valve forms the stator of the electric motor.

• 1 eine aus dem Stand der Technik bekannte Armatur eines Elektromotors,
• 2 eine perspektivische Ansicht einer Armatur für einen erfindungsgemäßen Elektromotor,
• 3 einen vergrößert Ausschnitt der Armatur und
• 4 einen perspektivischen Ausschnitt der Armatur.

Embodiments are illustrated in the figures and explained in more detail in the following description. Show it:

• 1 a known from the prior art fitting an electric motor,
• 2 a perspective view of a fitting for an electric motor according to the invention,
• 3 an enlarged section of the fitting and
• 4 a perspective section of the fitting.

1 shows a known from the prior art fitting 110 an electric motor. The fitting 110 has a laminated core 120 on. The laminated core 120 is composed of several layers of sheet metal. The fitting 110 includes teeth 200 that of winding wires 420 are wrapped. The winding wires 420 form windings 400 , which are needed to operate the electric motor. Between the teeth 200 are grooves 300 educated. The grooves 300 separate the teeth 200 from each other. An insulating element 500 separates the winding wires 420 the windings 400 electrically from the laminated core.

2 shows a perspective view of a fitting 10 for an electric motor according to the invention 1 , The fitting 10 has a variety of teeth 20 on. The teeth 20 are in the circumferential direction by means of grooves 30 separated from each other. Furthermore, the fitting shows 10 a basic body 18 on. The main body 18 is annular. The main body 18 has an outer circumferential surface on which the teeth 20 are formed. The main body 18 and the teeth 20 in particular by a laminated core 12 educated. The laminated core 12 consists of a variety of individual sheet metal layers 14 , which are arranged together, in particular in the axial direction of the electron motor 1 layered are arranged. The individual sheet metal layers 14 can be separated from each other in particular by individual insulation layers.

The electric motor 1 according to 2 by way of example three winding conductors 42 on. To a tooth 20 Wrapped forms a winding conductor 42 a winding 40 , Preferably, each tooth has 20 at least one winding 40 passing through a winding conductor 42 is formed on. Depending on the type and control of the electric motor 1 are one or more windings 40 per tooth 20 educated. The fitting according to 2 is designed for an electrically commutated motor with three phases. Each of the three phases is passed through a winding conductor 42 educated. Also, a winding conductor 42 more than one tooth 20 be wound and thus more than one winding 40 form. By way of example, the in 2 shown fitting 10 eighteen teeth 20 on. Each of the three winding conductors 42 is wrapped around six teeth, forming six teeth 20 one winding each 40 , A current flow through the winding conductors 42 leads to a generation of a magnetic field, which leads to a rotational movement of the rotor, or the rotor of the electric motor 1 leads. The fitting 10 this can be part of the rotor or the stator. In the 2 shown fitting 10 forms, for example, a stator, or is part of a stator. Accordingly, the rotor, or the rotor on magnets or ferrite elements or element, which with the means of the energization of the windings 40 generated magnetic fields act together.

Each winding conductor 42 has a first winding conductor section 44 , a second winding conductor section 45 and a third winding conductor section 46 on. Preferably, each winding conductor has 42 the first winding conductor section 44 , the second winding conductor section 45 and the third winding conductor section 46 twice. The three winding conductor sections 44 . 45 . 46 are each located in the area of one of the two conductor ends of the winding conductor 42 , In particular, the third winding conductor sections form 46a . 46b . 46c . 46d . 46e . 46f the leaders. The third winding conductor section 46 is designed so that it allows the production of an electrical connection, for example with an electrical circuit board, which forms, for example, an electrical control. Preferably, the third is Winding conductor section 46 from the fitting 10 away in the direction of the circuit board. According to 2 stand by way of example six third winding conductor sections 46a . 46b . 46c . 46d . 46e . 46f from. In each case two of the third winding conductor sections shown 46a . 46b . 46c . 46d . 46e . 46f are part of a winding conductor 42 , To the first winding conductor section 44 Close parts of the winding conductor 42 at least one tooth 20 wrapped, at least one winding 40 form.

Furthermore, the electric motor according to the invention 1 an insulating element 50 on. The insulating element 50 has at least one groove 30 a guide 52 on. The guide 52 serves to guide the first winding conductor section 44 of the winding conductor 42 , The guide of the first winding conductor section 44 takes place by the arrangement of the first winding conductor section 44 of the winding conductor 42 within the management tool 52 ,

According to a development of the invention, the insulating element extends 50 on at least one tooth 20 , The insulating element 50 has in the field of teeth 20 the task is an electrical connection between the winding conductor 42 and the fitting 10 to prevent. Furthermore, the insulating element prevents 50 the generation of damage in the winding of the windings 40 , In particular, prevents the first insulating 50 the damage to the coating of the winding conductor 42 in the area of the edges of the top sheet metal layer 14 of the laminated core 12 ,

The insulating element 50 is in particular by means of injection molding of an electrical insulating material, to the valve 10 generated. Furthermore, the insulating element 50 are formed by an element, which in particular in the axial direction of the electric motor 1 arranged on the valve, in particular infected. Furthermore, the insulating can 50 composed of several parts. The insulating element 50 has in particular plastic or resin.

The axial direction of the electric motor 1 corresponds to the longitudinal direction of the electric motor 1 , The axial direction extends in particular vertically out of the 3 out. The axial direction of the electric motor 1 is parallel to the axis, or the shaft of the electric motor 1 , Further, it is assumed below that the longitudinal direction and the axial direction of the electric motor 1 is identical. Also, it is assumed below that the longitudinal direction of the fitting 10 the axial direction of the electric motor 1 equivalent. Furthermore, the longitudinal direction of the teeth 20 perpendicular to the axial direction of the electric motor 1 ,

3 shows an enlarged section of the fitting 10 , It is the groove bottom 32 a groove 30 watching. The groove 30 extends from the outer circumference of the fitting 10 up to the groove bottom 32 , The groove bottom 32 is partly due to the outer circumference of the main body 18 educated. In an education according to 2 and 3 the groove extends 30 outgoing from the outer circumference of the fitting 10 , between the teeth 20 , in the direction of the axis or the center point, or the interior of the electric motor 1 , The groove 30 thus extends, in particular radially, inwards. Inside the groove 30 , in particular in the region of the groove base 32 , are two guides 52 educated.

The guiding means 52 each have a Führungsmittelnut 54 and a spacer 56 on. A guide 52 separates a first winding conductor section 44 using the spacer 56 from the part of, or a winding conductor 42 that around the tooth 20 wrapped a winding 40 forms. The guide 52 , in particular the spacer 56 , separates the first winding conductor section 44 from the other part of the winding conductor 42 , Also separates the spacer 56 the first winding conductor section 44 within the management tool 52 of further first winding conductor sections 44 ,

The length, in particular the length in the circumferential direction of the valve 10 , the spacer 56 corresponds at least to the thickness of the windings 40 inside a groove 30 , Appropriate training prevents slippage of parts of the winding 40 into the leadership center 54 ,

The leadership resources 54 have an opening. The openings of the guide center grooves 54 , or the openings of the guide means 52 that are inside a groove 30 are, in particular, substantially facing each other. The opening of the guide means 52 extends over the entire length of the guide means 52 , The guiding means 52 or the leadership resources 54 extend in particular in the longitudinal direction of the valve 10 , The guiding means 52 lead the first winding conductor section 44 in the axial direction of the valve 10 ,

According to 2 becomes the second winding conductor section 45a . 45b . 45c . 45d . 45e . 45f from the guide means 52 , or the groove 30 led away. In particular, the first winding conductor section 44 and the second winding conductor section 45 for example, a first angle which is between 80 and 100 degrees. The second winding conductor section 45 is through a ladder guide 70 guided. The ladder guide 70 is in 3 enlarged without the second winding conductor section 45 shown.

In 3 are two conductor guides 70a and 70b shown. Each of the ladder guides 70 has a ladder guide groove 71 on. The ladder guide groove 71 is formed so that the second winding conductor section 45 can be led by her. Under the guidance of the ladder guidance 70 is understood here that the second winding conductor section 45 a defined position during the life of the electric motor 1 maintains. A shifting or slipping of the second winding conductor section 45 can not. The ladder guide groove 71 is formed as a groove, wherein the cross section of the Leiterführungsnut 71 corresponding to the outer circumference of the second winding conductor portion 45 is trained. The corresponding design causes the best possible guiding of the winding conductor section 45 through the groove. Viewed in cross-section, at least part of the second winding conductor section runs 45 within the ladder guide groove 71 , According to an education accordingly 4 is the winding conductor section 45 viewed in cross section completely within the winding conductor groove 71 , According to an education accordingly 2 When viewed in cross-section, the winding conductor section is only a small part within the conductor guide groove 71 arranged.

The ladder guide 70 is in extension of a groove 30 educated. That means the ladder guide 70 starting from the groove inwards. The ladder guide 70 has a first end and a second end. The first end opens into the groove 30 , Advantageously leads the ladder 70 with her first end in a leadership center 54 that are inside the groove 30 is trained. The second end is closer to an imaginary axis, which is at the center of the valve 10 , or inside the valve 10 located, or the axis, shaft of the electric motor 1 matches as the first end up. The ladder guide 70 thus leads a winding conductor 42 , in particular the second winding conductor section 45 a winding conductor 42 towards the interior of the fitting 10 , The ladder guide 70 runs approximately radially to the axis, or shaft, or imaginary axis of the electric motor 1 , The ladder guide 70 thus proceeds from the groove 30 into which it flows, away from the teeth and the groove 30 inside. In the following, the area around the axis, or the imaginary axis, is referred to as inside.

The main body 18 the fitting 10 has an outer and an inner peripheral surface. Perpendicular to the outer circumferential surface, or radially to the axis, shaft of the electric motor 1 are the teeth 20 on the body 18 educated. The inner peripheral surface bounds an imaginary cylinder in the radial direction. The cylinder extends arbitrarily in or against the axial direction of the electric motor 1 , In particular, the imaginary cylinder forms inside.

The ladder guide 70 leads the winding conductor section 45 essentially, in particular in extension to the groove, inwards, ie in the direction of the imaginary cylinder. For example, the ladder guide leads 70 the second winding conductor section 45 in the direction of the inner circle, formed by the inner peripheral surface of the base body 18 ,

According to a development, the conductor runs 70 Approximately along the top or bottom of the fitting 10 , In particular, the conductor guide 70 opposite the top or bottom of the fitting 10 a distance that increases with distance from the groove 30 decreases or increases. According to 2 and 4 takes the distance between the conductor guide 70 and the fitting 10 with increasing distance from the groove 30 from.

Preferably, at least following a groove 30 two conductor guides 70 educated. According to the 2 to 4 are at three grooves 30 two conductor guides each 70 in extension of the groove 30 educated. The two conductor guides 70 run parallel to each other. Each of the ladder guides 70 flows into its own leadership center 54 a guide 52 , Thus, the winding conductors 42 which by the leadership center 54 are guided by a ladder guide 70 continue to be conducted. The guiding means 52 protrude in the area of the ladder guides 70 over the surface of the fitting 10 out. The guiding means 52 are in the area of the ladder guides 70 longer than the length of the Blechpaktes in the axial direction.

The ladder guides 70 , or the two conductor guides, by a groove 30 go out, are on or in a pedestal 80 educated. The base 80 is in particular wedge-shaped, wherein the base tapers in the direction of the imaginary cylinder, or inwardly. In particular, the Leiterführungsnuten 71 run inside the socket 80 , The base 80 is in particular part of the insulating element 50 , The guiding means 52 extend over the height of the pedestal 80 , According to one embodiment of the invention, the base 80 but also part of the fitting 10 be. Also, according to a development of the invention, the base 80 represent a separate component, which in particular by means of plugging or sticking to the valve 10 is connectable. At the pedestal 80 can also additionally the guide elements 52 be educated. Preferably, the guide means extend you 52 out of the groove 30 out to the ladder channels 70 ,

In 4 is a perspective section of the fitting 10 shown. It is a first ladder guides 70a and a second conductor guides 70b shown. Both ladder guides 70a and 70b in particular run parallel to each other. According to one embodiment of the invention, the conductor guides 70 also conical or radial to each other. In both ladder guides 70a . 70b is an example of a winding conductor 42 arranged. The following is an example of the leadership of the winding conductor 42 through the first ladder guide 70a described. The guide of the winding conductor 42 through the second conductor guide shown 70b takes place immediately. Depending on the wiring of the windings 40 is the winding conductor 42 passing through the first ladder guide 70a is guided and the second winding conductor 42 passing through the second conductor guide 70b is guided, two electrically separate winding conductor 42 or one and the same winding conductor 42 ,

A first winding conductor section 44 of the winding conductor 42 is here within the leadership center 54 arranged. A second winding conductor section 45 , which is the first winding conductor section 44 is within one of the first conductor guide 70a arranged. The first winding conductor section 44 points opposite to the second winding conductor section 45 an angle. The angle is advantageously between 45 and 135 degrees, in particular 80 and 100 °. According to the 4 the angle is an example between 80 and 90 °.

To the second winding conductor section 45 closes the third winding conductor section 46 at. The third winding conductor section 46 runs essentially axially from the valve 10 path. The third winding conductor section 46 used for electrical contacting of the windings 40 with for example an electronics. By the axial removal of the third winding conductor section 46 from the fitting 10 is achieved that the electronics / PCB, for example, simply in the axial direction of the valve 10 can be arranged. After the arrangement of the electronics at the end of the third winding conductor section 46 this can be electrically connected by means of, for example, a soldering process with the electronics, in particular a printed circuit board. Between the second winding conductor section 45 and the third winding conductor section 46 there is a second angle. The second angle is formed between 45 and 135 degrees, in particular 80 and 100 °, preferably, the second angle is according to 4 formed between 80 and 90 °.

The ladder guide 70a each has a first deflection 72 and a second deflecting means 74 on. The second shown conductor guide 70b is the same as the first shown wire guide 70a educated. In particular, all ladder guides 70 identically formed. The first deflection 72 is at the transition between the conductor guide 70a and the groove 30 , especially the leadership center 54 educated. The first deflection means is thus at the first end of the conductor guide 70a educated. The second deflecting means 74 is at the end of the ladder guide, especially at the second end of the ladder guide 70a educated. The first deflection 72 steers the winding conductor 42 who is inside the guide 52 runs into the ladder guide 70a around. The second deflecting means 74 steers the winding conductor 42 in particular as a second winding conductor section 45 within the ladder 70a runs around so that this as the third winding conductor section 46 axially from the valve 10 runs away.

The first deflection 72 and the second deflecting means 74 have in particular a rounding off. The rounding ensures the formation of the bending of the individual winding conductor sections 44 . 45 . 46 to each other. The deflection 72 . 74 are located at the transition between the first winding conductor section 44 and the second winding conductor portion 45 as well as at the transition between the second winding conductor section 45 and the third winding conductor section 46 ,

Claims (14)

Electric motor (1) comprising: - a fitting (10) having a plurality of teeth (20) and grooves (30) formed between the teeth (20), - at least one winding (40) passing through a winding conductor (42) wherein the winding conductor (42) has at least one first winding conductor section (44), a second winding conductor section (45) and a third winding conductor section (46), wherein the first winding conductor section (44) extends within the groove (30), characterized in that at least one conductor guide (70) is provided, which leads the second winding conductor section (45) inwards, the second winding conductor section (45) being arranged once opposite the first winding conductor sections (44) and once opposite the third winding conductor section (46), and wherein the third winding conductor portion (46) extends substantially axially away from the fitting (10) and for electrically contacting the Wicklun g (40) serves. Electric motor (1) according to the preceding claim, characterized in that the conductor guide (70) guides the second winding conductor section (45) inwardly substantially in extension of the groove (30). Electric motor (1) according to one of the preceding claims, characterized in that the conductor guide (70) has a Leiterführungsnut (71), wherein in particular the cross section of the Leiterführungsnut (71) corresponding to the cross section of the winding conductor (42) is formed, and wherein the second winding conductor section (45) extends at least in part within the Leiterführungsnut (71). Electric motor (1) according to one of the preceding claims, characterized in that the conductor guide (70) is part of an insulating element (50) which is arranged on the fitting (10) and wherein in particular the insulating element (50), a part having the winding (40) and the fitting (10) separates. Electric motor (1) according to one of the preceding claims, characterized in that the first winding conductor section (44) with respect to the second winding conductor sections (45) at an angle of 45 to 135 degrees, preferably an angle of 80 to 100 degrees, in particular that the first winding conductor section (44) is formed substantially perpendicular to the second winding conductor sections (45). Electric motor (1) according to one of the preceding claims, characterized in that the third winding conductor section (46) opposite the second winding conductor sections (45) at an angle of 45 to 135 degrees, preferably an angle of 80 to 100 degrees, in particular that the third winding conductor section (46) is formed substantially perpendicular to the second winding conductor section (45). Electric motor (1) according to one of the preceding claims, characterized in that the armature (10) viewed in the axial direction has an upper side and a lower side, wherein the conductor guide (70) extends substantially along the upper side or the lower side of the armature (10). Electric motor (1) according to one of the preceding claims, characterized in that the conductor guide (70) opposite the top or bottom of the fitting (10) has a distance which varies with increasing distance from the groove (30), in particular increases or decreases. Electric motor (1) according to one of the preceding claims, characterized in that the conductor guide (70) has a first deflection means (72) and a second deflection means (74), wherein the first deflection means (72) in the transition between the conductor guide (70) and the groove (30) is formed, and that the second deflection means (74) on the groove remote from the end of the conductor guide (70) is formed. Electric motor (1) according to one of the preceding claims, characterized in that the first deflection means (72) and the second deflection means (74) have a rounding, which in particular for the formation of the bending of the individual winding conductor sections (44, 45, 46) to each other , Electric motor (1) according to one of the preceding claims, characterized in that a further conductor guide (70b) is formed, wherein in particular the conductor guide (70, 70a) and the further conductor guide (70b) parallel, conical or radial to each other, in particular the further conductor guide (70b) leads to a further second winding conductor sections (45). Electric motor (1) according to one of the preceding claims, characterized in that a guide means (52) is provided, which is formed to a large extent within the groove (30), wherein the guide means (52) comprises a spacer (56) and a guide means (54), wherein the guide center groove (54) guides the first winding conductor portion (44) and the spacer (56) separates the first winding conductor portion (44) from the winding (40). Electric motor (1) according to one of the preceding claims, characterized in that in at least one groove (30), in particular on the groove base (32) of the groove (30), two guide means (52) are formed, wherein the opening of the guide means grooves (54) within a groove (30) are directed towards each other. Electric motor (1) according to one of the preceding claims, characterized in that the fitting (10) is part of a stator of the electric motor (1).

Images