DE102005017934A1 - Stator of motor, has split opening in magnetism guiding section that passes through central through-holes of coil seat, circuit board, and magnetization section - Google Patents

Abstract

A magnetism guiding section (31) has a split opening (311a) straightly extending along its length. A projection provided at a specific spot of circumferential edges of central through-holes (321a,331a,341a) of magnetizing section (32), coil seat (311) and a circuit board (34), engages with the split opening. A stem (351) upwardly extends from a support section (35), fits with the inner wall of magnetism guiding portion.

Description

technical area

The The invention relates to a motor stator, in particular the structure of Magnetic conductor.

State of technology

1 and 2 show a conventional motor stator, which consists of a magnetic conductor 11 , a magnetogen 12 , a winding 13 , a circuit board 14 and a base 15 consists. The winding 13 is around the bobbin 131 rewound. The magnetogen 12 includes an upper pole plate 121 and a lower pole plate 122 , The magnetic conductor 11 , the upper pole plate 121 , the lower pole plate 122 , the bobbin 131 , the circuit board 14 and the base 15 each have a through hole 111 . 121 . 122a . 131 . 141 . 151 , The magnetic conductor 11 can through the through hole 121 the upper pole plate 121 , the through hole 122a the lower pole plate 122 , the through hole 131 of the bobbin 131 and the through hole 141 the circuit board 14 in the through hole 151 the base 15 be plugged.

During assembly, first the magnetic conductor 11 successively through the through hole 121 the upper pole plate 121 , the through hole 131 of the bobbin 131 , the through hole 122a the lower pole plate 122 , the through hole 141 the circuit board 14 guided and then into the through hole 151 the base 15 plugged. This is the bobbin 131 between the upper pole plate 121 and the lower pole plate 122 to be staggered.

• (1) Eine Positionierung des Magnetleiters 11 ist nicht vorgesehen, wenn er durch das Durchgangsloch 121a der oberen Polplatte 121, das Durchgangsloch 131a des Spulenkörpers 131, das Durchgangsloch 122a der unteren Polplatte 122, das Durchgangsloch 141 der Schaltungsplatte 14 in das Durchgangsloch 151 der Basis 15 gesteckt wird. Daher ist die obere Polplatte 121 mit Positionierlöchern 121b und die untere Polplatte 122 mit Positionierlöchern 122b, 122c versehen. Der Spulenkörper 131 besitzt auf der Oberseite und der Unterseite Positionierstifte 131b, die in die Positionierlöcher 121b, 122b eingreifen können. Auf der Schaltungsplatte 14 sind Positionierstifte 142 vorgesehen, die in die Positionierlöcher 122c eingreifen können. Bei der Montage werden die obere und untere Polplatte 121, 122 durch die Positionierlöcher 121b, 122b und die Positionierstifte 131b des Spulenkörpers 13 in einer versetzten Stellung positioniert. Die untere Polplatte 122 wird durch die Positionierlöcher 122c und die Positionierstifte 142 der Schaltungsplatte 14 exakt auf dem Schaltungsplatte 14 positioniert, damit die Position des Sensors 143 auf der Schaltungsplatte 14 gegenüber der oberen und unteren Polplatten 121, 122 optimiert wird. Durch diese Positionierungsweise wird die Montage erschwert. Zudem lösen sich die Positionierstifte 131 leicht aus den Positionierlöchern 121b, 122b.
• (2) Der Magnetleiter 11 ist in Form einer Hülse ausgebildet und kann zu einem Wirbelstromverlust führen.
• (3) Die Positionierlöcher 121b der oberen Polplatte 121 und die Positionierlöcher 122b, 122c der unteren Polplatte 122 können zu einem Magnetflußverlust führen.

However, this motor stator has the following disadvantages:

• (1) Positioning of the magnetic conductor 11 is not provided when passing through the through hole 121 the upper pole plate 121 , the through hole 131 of the bobbin 131 , the through hole 122a the lower pole plate 122 , the through hole 141 the circuit board 14 in the through hole 151 the base 15 is plugged. Therefore, the upper pole plate 121 with positioning holes 121b and the lower pole plate 122 with positioning holes 122b . 122c Mistake. The bobbin 131 has positioning pins on the top and bottom 131b in the positioning holes 121b . 122b can intervene. On the circuit board 14 are positioning pins 142 provided in the positioning holes 122c can intervene. During assembly, the top and bottom pole plate 121 . 122 through the positioning holes 121b . 122b and the positioning pins 131b of the bobbin 13 positioned in a staggered position. The lower pole plate 122 gets through the positioning holes 122c and the positioning pins 142 the circuit board 14 exactly on the circuit board 14 positioned so that the position of the sensor 143 on the circuit board 14 opposite the upper and lower pole plates 121 . 122 is optimized. This positioning method makes installation difficult. In addition, the positioning pins solve 131 slightly out of the positioning holes 121b . 122b ,
• (2) The magnetic conductor 11 is formed in the form of a sleeve and can lead to eddy current loss.
• (3) The positioning holes 121b the upper pole plate 121 and the positioning holes 122b . 122c the lower pole plate 122 can lead to a magnetic flux loss.

Out For this reason, in view of the disadvantages of the present inventor Solutions, based on longtime Experience in this area, after a long study, numerous experiments and unceasing improvements to the present invention.

Object of the invention

Of the Invention has for its object to provide a motor stator, which can avoid eddy current loss.

Of the Invention is based on a further object, a motor stator to create, which allows easy installation.

Of the Invention is a still further object, a motor stator to create, which allows a quick positioning.

Of the Invention is a still further object, a motor stator to create, which can avoid a magnetic flux loss.

Of the Invention is a still further object, a motor stator to create, which can avoid a reduction of the magnetic flux.

Further Details, features and advantages of the invention will become apparent the following detailed description of the preferred embodiments in conjunction with the attached drawings.

Short description the drawings

1 shows an exploded view of conventional solution,

2 shows a perspective view of the conventional solution,

3 shows an exploded view of the first preferred embodiment of the invention,

4 shows a perspective view of the first preferred embodiment of the invention,

5 shows the first processing step of the magnetic conductor,

6 shows the second processing step of the magnetic conductor,

7 shows the third processing step of the magnetic conductor,

8th shows the fourth processing step of the magnetic conductor,

9 shows a plan view of the magnetic conductor,

10 shows an exploded view of the second preferred embodiment of the invention,

11 shows a perspective view of the second preferred embodiment of the invention.

Ways to execute the invention

The 3 and 4 show the first preferred embodiment of the invention, which consists of a magnetic conductor 21 , a magnetogen 22 , a winding 23 , a circuit board 24 and a base 25 consists. The winding 23 is around the bobbin 231 rewound. The magnetogen 22 includes an upper pole plate 221 and a lower pole plate 222 , The magnetic conductor 21 , the upper pole plate 221 , the lower pole plate 222 , the bobbin 231 and the circuit board 24 each have a through hole 211 . 221a . 222a . 231 . 241 on. The magnetic conductor 21 has a slot 211 , The magnetic conductor 21 can with the through hole 221a the upper pole plate 221 , the through hole 222a the lower pole plate 222 , the through hole 231 of the bobbin 231 and the through hole 241 the circuit board 24 connected and over a pin 251 on the base 25 be plugged.

During assembly, first the magnetic conductor 21 successively through the through hole 221a the upper pole plate 221 , the through hole 231 of the bobbin 231 , the through hole 222a the lower pole plate 222 and the through hole 241 the circuit board 24 guided. This is the bobbin 231 between the upper pole plate 221 and the lower pole plate 222 which are placed in a staggered position. Subsequently, the position of the sensor 242 on the circuit board 24 opposite the upper pole plate 221 and the lower pole plate 222 optimized. Finally, the pin 251 the base 25 in the through hole 211 of the magnetic conductor 21 plugged. This avoids eddy current loss.

The 5 . 6 . 7 . 8th and 9 show the manufacturing steps of the magnetic conductor, in which several positioning elements 261 (Rolling), forming elements 262 (Rollers) and a plate 263 (made of magnetic material) can be used. The plate 263 is between the positioning elements 261 transported until the plate 263 with the shaping elements 262 comes into contact. The shaping elements 262 bend the plate 263 until the plate 263 a ring 264 with a slot forms ( 9 ).

The 10 and 11 show the second preferred embodiment of the invention, which consists of a magnetic conductor 31 , a magnetogen 32 , a winding 33 , a circuit board 34 and a base 35 consists. The winding 33 is around the bobbin 331 rewound. The magnetogen 32 includes an upper pole plate 321 and a lower pole plate 322 , The magnetic conductor 31 , the upper pole plate 321 , the lower pole plate 322 , the bobbin 331 and the circuit board 34 each have a through hole 311 . 321a . 322a . 331a . 341 on. The magnetic conductor 31 has a slot 311 , The magnetic conductor 31 can with the through hole 321a the upper pole plate 321 , the through hole 322a the lower pole plate 322 , the through hole 331a of the bobbin 331 and the through hole 341 the circuit board 34 connected and over a pin 351 on the base 35 be plugged.

The through hole 321a the upper pole plate 321 , the through hole 322a the lower pole plate 322 , the through hole 331a of the bobbin 331 and the through hole 341 the circuit board 34 are each with a lead 321b . 322b . 331b . 341a Mistake.

During assembly, first the magnetic conductor 31 such successively through the through hole 321a the upper pole plate 321 , the through hole 331a of the bobbin 331 , the through hole 322a the lower pole plate 322 and the through hole 341 the circuit board 34 led that projection 321b of the through hole 321a the upper pole plate 321 , the lead 331b of the through hole 331a of the bobbin 331 , of the head Start 322b of the through hole 322a the lower pole plate 322 and the lead 341a of the through hole 341 the circuit board 34 in the slot 311 of the magnetic conductor 31 intervenes. This is the bobbin 331 between the upper pole plate 321 and the lower pole plate 322 which are placed in a staggered position. Subsequently, the position of the sensor 342 on the circuit board 34 opposite the upper pole plate 321 and the lower pole plate 322 optimized. Finally, the pin 351 the base 35 in the through hole 311 of the magnetic conductor 31 plugged. This reduces eddy current loss and achieves rapid positioning and avoids magnetic flux loss.

• 1. Dadurch, daß der Vorsprung 321b des Durchgangsloches 321a der oberen Polplatte 321, der Vorsprung 331b des Durchgangsloches 331a des Spulenkörpers 331, der Vorsprung 322b des Durchgangsloches 322a der untern Polplatte 322 und der Vorsprung 341a des Durchgangsloches 341 der Schaltungsplatte 34 in den Schlitz 311a des Magnetleiters 31 eingreifen, wird eine schnelle Positionierung erreicht und ein Magnetflußverlust vermieden.
• 2. Die Schlitze 211a, 311a der Magnetleiter 21, 31 können einen Wirbelstromverlust vermeiden.

The advantages of the invention are summarized below:

• 1. The fact that the projection 321b of the through hole 321a the upper pole plate 321 , the lead 331b of the through hole 331a of the bobbin 331 , the lead 322b of the through hole 322a the lower pole plate 322 and the lead 341a of the through hole 341 the circuit board 34 in the slot 311 of the magnetic conductor 31 engage, a quick positioning is achieved and avoided a magnetic flux loss.
• 2. The slots 211 . 311 the magnetic conductor 21 . 31 can avoid eddy current loss.

by virtue of the above facts, the invention corresponds in its availability, Progressiveness and novelty fully the requirements for a patent.

The The above description represents only the preferred embodiments of the invention and should not be used as a definition of boundaries and serve the scope of the invention. All equivalent changes and modifications are included to the scope of this invention.

11

magnetic Head

111

Through Hole

12

magnetic excitation

121

upper pole plate

121

Through Hole

121b

positioning

122

lower pole plate

122a

Through Hole

122b

positioning

122c

positioning

13

winding

131

bobbins

131

Through Hole

131b

positioning

14

circuit board

141

Through Hole

142

positioning

143

sensor

15

Base

151

Through Hole

21

magnetic Head

211

Through Hole

211

slot

22

magnetic excitation

221

upper pole plate

221a

Through Hole

222

lower pole plate

222a

Through Hole

23

winding

231

bobbins

231

Through Hole

24

circuit board

241

Through Hole

242

sensor

25

Base

251

spigot

261

positioning

262

forming element

263

plate

264

ring

31

magnetic Head

311

Through Hole

311

slot

32

magnetic excitation

321

upper pole plate

321a

Through Hole

321b

head Start

322

lower pole plate

322a

Through Hole

322b

head Start

33

winding

331

bobbins

331a

Through Hole

331b

head Start

34

circuit board

341

Through Hole

341a

head Start

342

sensor

35

Base

351

spigot

Claims (8)

Motor stator consisting of a magnetic conductor ( 21 ), a magnetic exciter ( 22 ), a winding ( 23 ), a circuit board ( 24 ) and a base ( 25 ), wherein the winding ( 23 ) around the bobbin ( 231 ), wherein the magnetic conductor ( 21 ), the magnet exciter ( 22 ), the bobbin ( 231 ) and the circuit board ( 24 ) one through hole each ( 211 . 231 . 241 ), wherein the magnetic conductor ( 21 ) a slot ( 211 ), and wherein the magnetic conductor ( 21 ) with the through hole of the magnetic exciter ( 22 ), the through hole ( 231 ) of the bobbin ( 231 ) and the through hole ( 241 ) of the Circuit board ( 24 ) and on the basis ( 25 ) can be plugged. Motor stator according to Claim 1, characterized in that the magnet exciter ( 22 ) an upper pole plate ( 221 ) and a lower pole plate ( 222 ). Motor stator according to Claim 2, characterized in that the through-hole ( 321a ) of the upper pole plate ( 321 ) with a lead ( 321b ) provided in the slot ( 311 ) of the magnetic conductor ( 31 ) can intervene. Motor stator according to Claim 2, characterized in that the through-hole ( 322a ) of the lower pole plate ( 322 ) with a lead ( 322b ) provided in the slot ( 311 ) of the magnetic conductor ( 31 ) can intervene. Motor stator according to Claim 1, characterized in that the through-hole ( 331a ) of the bobbin ( 331 ) with a lead ( 331b ) provided in the slot ( 311 ) of the magnetic conductor ( 31 ) can intervene. Motor stator according to Claim 1, characterized in that on the basis ( 25 . 35 ) a pin ( 251 . 351 ) provided in the through hole ( 211 . 311 ) of the magnetic conductor ( 21 . 31 ) can be plugged. Production method of the motor stator according to the preceding claims, which contains the following steps: a) provide a plate of magnetic material, b) bend the plate to form a ring with a slot c) the magnetic conductor through the through holes of Ma gneterregers, the bobbin and the circuit board, d) Insert the pin of the base in the through hole of the magnetic conductor. Manufacturing method according to claim 7, characterized in that that the Schirtt (c) contains the following step: (c1) the through hole of the magnetic exciter, the through hole of the bobbin and the through hole of the circuit board each with a projection to be provided, which can engage in the slot of the magnetic conductor.