JPH0728523B2 - Motor lead wire drawing device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lead wire drawing device for a motor used as a rotary drive source for video equipment, audio equipment and the like.

2. Description of the Related Art Conventionally, when a base of a stator of a brushless motor has a terminal of a rotational position detection element such as a wire end of a stator winding or a Hall element, and a frequency generator, In many cases, a flexible printed wiring board is used to connect the wire ends of a power generation coil and introduce the wire to the outside. One such example is shown in FIG. In FIG. 1, reference numeral 1 denotes a synthetic resin cylindrical support body integrally formed with a collar portion 2 at one opening end, and the support body 1 has a plurality of coreless type stator windings 3. The support body 1 is fixed at a predetermined interval with the center of the support body as an axis, and constitutes a stator base 4. Note that FIG. 5 shows a cross section of one stator winding 3. Reference numeral 5 denotes a ring-shaped magnet rotor that is rotatably arranged so as to face the outer peripheral portion of the support body 1 including the stator winding 3, and has a main magnetized portion (rotating torque generating portion) for generating rotational torque on its inner peripheral portion. (Indicated by N in the figure) is formed, and a magnetized portion for detecting rotational position (indicated by S in the figure) is formed on the end face portion facing the collar portion 2. Reference numerals 6 and 7 denote flexible printed wiring boards respectively bonded to both sides of the collar portion 2. One of the flexible printed wiring boards (6 in the figure) is soldered to the wire end of the stator winding 3, and the other (7 in the figure). ) Is the magnet rotor 5
The Hall element 8 for detecting the rotational position is soldered so as to face the magnetized portion for detecting the rotational position.

Problems to be Solved by the Invention However, in the above-described conventional example, since two flexible printed wiring boards 6 and 7 are used, the number of parts is increased and the cost is increased. In addition, since two flexible printed wiring boards are connected, wiring problems may occur. Therefore, as shown in FIG. 5 (A), the two flexible wiring boards 6 and 7 may be apparently made into one by adhering them with an adhesive.
In this case, if the wiring is bent in the direction of the arrow B, the flexible printed wiring board 7 on the inner side is sagged (stress) in the vicinity F of the edge portion of the collar portion 2 as shown in FIG. 5 (B).
As a result, there is a problem that the main portion of the flexible printed wiring board 7 adhered to the collar portion 2 and the adhesive portion with the other flexible printed wiring board 6 are peeled off.

In view of the above-mentioned problems, the present invention provides a lead wire drawing device for a motor, which makes it possible to draw lead wires from both sides of a stator base to the outside by skillfully using one flexible printed wiring board. It is a thing.

Means for Solving the Problems In order to solve the above problems, a lead wire drawing apparatus for a motor of the present invention has a first pattern wiring conductor that can be bonded to one surface portion of a stator base of the motor. A printed wiring portion, a second printed wiring portion having a required pattern wiring conductor that can be bonded to the other surface portion of the stator base, a printed wiring base portion having a required number of pattern wiring conductors arranged in parallel, and A first connecting printed wiring part for connecting the pattern wiring conductor of the first printed wiring part and a desired pattern wiring conductor of the printed wiring base, a pattern wiring conductor of the second printed wiring part, and the printed wiring. Second for connecting to the required pattern wiring conductor of the base
A flexible printed wiring board integrally having a printed wiring portion for connection, and the stator by bending the first and second printed wiring portions at the printed wiring portion for connection. The pattern wiring conductors are bonded to the respective surface portions of the base body, and the terminals of the motor constituent elements mounted on the stator base body are connected to these pattern wiring conductors.

With the above-described structure, the present invention allows lead wires to be led out from both sides of the stator base of the motor, despite the use of one flexible printed wiring board, thus reducing the number of parts used. The cost can be reduced. Also, since the wiring does not interfere with other peripheral parts and devices, downsizing of the motor
This is suitable for downsizing equipment using the motor.

Examples Hereinafter, the present invention will be described based on illustrated examples. FIG. 1 is a side sectional view of an example of a motor including a frequency generator using the lead wire drawing device of the present invention. In the figure,
Numeral 10 is a rotary shaft rotatably supported by a bearing 12 on a fixed portion 11, 13 is a coreless type stator winding fixed on a cylindrical support 14 with a flange made of synthetic resin fixed on the fixed portion 11 This is, for example, six pieces are arranged around the rotary shaft 10 at equal angular intervals. Reference numeral 15 denotes a boss fixed to the rotary shaft 10 with a screw 16, to which a rotor yoke 17 and a back yoke 18 made of a magnetic material and having a bottomed cylindrical shape are coaxially attached. Reference numeral 19 denotes a ring-shaped rotor magnet fixed to the inner peripheral surface portion of the rotor yoke 17 so as to face the outer peripheral portion of the stator winding 13 with a required gap, and 20 is magnetized to the end surface portion of the rotor magnet 19. A rotational position detecting hole attached to a part of the film-like flexible printed wiring board 22 adhered to the collar portion 14a of the support 14 so as to face the rotational position detecting magnetized portion 21 with electrical continuity. It is an element. Three Hall elements 20 are used in this example, and the stator windings of each phase are applied in a three-phase form by the output generated according to the rotation of the rotor including the rotor yoke 17 and the rotor magnet 19. It operates so that a current is sequentially supplied to 13.

Reference numeral 23 denotes a synthetic resin cylindrical holding member attached to the support 14 so as to be positioned inside the back yoke 18, and a tip end portion (lower end face portion in FIG. 1) has a surface portion. A ring-shaped frequency generator element 24 having a zigzag-shaped power generation conductor is fixed to the inside by an adhesive or the like. Reference numeral 25 is a lead wire connected to guide the output of the frequency power generation element 24 to a desired pattern conductor of the flexible printed wiring board 22. 26
Is a ring-shaped rotor magnet for a frequency generator magnetized in the thickness direction, and this is a fixing member so that its magnetized surface faces the frequency power generating element 24 at a predetermined interval.
It is fixed to the back yoke 18 via 27. It should be noted that the cylindrical support 14 having the flange portion 14a is the stator base 2
Make up eight.

FIG. 2 shows a plan view (or back view) before the flexible printed wiring board 22 is bonded. This flexible printed wiring board 22 has a first printed wiring portion 22a having a required pattern wiring conductor (exemplified by a) that can be bonded to one surface portion of the stator base 28, that is, one surface portion of the collar portion 14a. A second printed wiring portion 22b having a required pattern wiring conductor (illustrated by b) that can be adhered to the other surface portion of the stator base 28, that is, the other surface portion of the collar portion 14a;
A printed wiring base 22c having a required number of pattern wiring conductors (illustrated by c) arranged in parallel, a pattern wiring conductor a of the first printed wiring portion 22a, and the printed wiring base 22c.
L-shaped first connecting to the required pattern wiring conductor c of
Connecting printed wiring portion 22d and the printed wiring base portion 2 of the pattern wiring conductor b of the second printed wiring portion 22b.
A second connecting printed wiring portion 22e for connecting the required pattern wiring conductor c of 2c is integrally provided. And
As shown in FIG. 3, the flexible printed wiring board 22 has the first and second printed wiring portions 22a, 22b.
Are bonded to the respective surface portions of the collar portion 14a by bending them at the first connecting printed wiring portion 22d, and the pattern wiring conductors are the main components equipped on the stator base. The terminals of are connected.
That is, the stator winding 13 in FIG. 1 is attached to the pattern wiring conductor a (see FIG. 2) of the first printed wiring portion 22a.
And a wire end of the output lead wire 25 of the frequency generator are soldered, and the hall element 20 is soldered to the pattern wiring conductor b of the second printed wiring portion 22b. The back surfaces of the first and second printed wiring parts 22a and 22b,
Also, if an adhesive adhesive to which a peelable tape is attached in advance is applied to the back surface of the first connecting printed wiring part 22d, the attachment to the stator base 28 is facilitated and the first and second Printed wiring part 22 for connection of 2
This is effective in integrating d and 22e. Further, in this embodiment, as clearly shown in FIGS. 1, 3, and 4, the outer peripheral edge portion of the collar portion 14a, more specifically, the first and second connecting printed wiring portions 22d, 22e. At the outer peripheral edge portion where is located, for example, a protrusion 29 having a width which is substantially equal to the width of the wide second connecting printed wiring portion 22e and having a taper that becomes thinner toward the outer side is formed on the collar portion 14a. It is formed integrally with. As a result, when the flexible printed wiring board 22 is bent in the direction of arrow B in the vicinity of the line AA 'shown in FIG. From FIG. 4 (B), there is no "slack" that can be seen in the conventional example of FIG. 5 described above, so that the second printed wiring 22b is peeled off from the collar portion 14a, First and second connection printed wirings 22d and 2
There is no peeling of the adhesive line 2e. Reference numeral 30 in FIG. 2 denotes a positioning recess (or hole), which is formed by the positioning projection 31 integrally formed on the surface of the collar 14a as shown in FIG. It is provided to ensure the positioning. Of course, this may be provided in the second printed wiring part 22b.

EFFECTS OF THE INVENTION As is clear from the above description, the lead wire drawing apparatus for a motor of the present invention can draw the lead wires from both sides of the stator base to the outside by using one flexible printed wiring board. Therefore, it is possible to reduce the number of parts used and the cost. In addition, there is no problem in the peripheral parts and devices on the wiring. Further, when adhesive adhesives are attached to the respective back surfaces of the first and second printed wiring portions and the first printed wiring portion for connection of the flexible printed wiring board, they are attached to the stator base. However, it is extremely simple and the assembly workability can be significantly improved. Further, when a protrusion having a taper that becomes thinner toward the outside is provided at the edge of the stator base where the first and second printed wiring parts for connection are located, in the vicinity of the protrusion. Even when the flexible printed wiring board is bent, slack does not occur in the flexible printed wiring board, and even if it occurs, it is extremely small, whereby the flexible printed wiring board adhered to the stator base is peeled off, When the first and second connecting parts of the flexible printed wiring board are adhered, the adhered part does not peel off. Furthermore, at least the first printed wiring portion is provided with a positioning recess (or hole), and the stator base to which it is mounted is provided with a positioning projection that fits with the positioning recess (or hole). In such a case, a number of effects can be obtained such that the alignment at the time of bonding can be easily performed with high accuracy.

[Brief description of drawings]

FIG. 1 is a side sectional view of an example of a motor in which a lead wire drawing device of the present invention is implemented, FIG. 2 is a plan view of a flexible printed wiring board used in the present invention, and FIG. 3 is an embodiment of FIG. 4A and 4B are main part side sectional views of the same embodiment, and FIGS. 5A and 5B are main part sectional views of a conventional example. 13 ... Stator winding, 14 ... Cylindrical support, 14a ... Collar, 22 ... Flexible printed wiring board, 22a ... 1st
Printed wiring part, 22b ... second printed wiring part, 22c
...... Printed wiring base portion, 22d ...... First connection printed wiring portion, 22e ...... Second connection printed wiring portion, a, b, c ...
… Pattern wiring conductor, 28 …… Stator base, 29 …… Projector,
30 …… Positioning recess, 31 …… Positioning projection.

Claims (1)

[Claims] 1. A notch for positioning or a positioning notch for adhering to a first position of a stator base of a motor provided with a positioning protrusion, at a predetermined position guided by the positioning protrusion. A first printed wiring portion having a required pattern wiring conductor provided with a hole and having an adhesive on its back surface;
A second printed wiring portion having an adhesive on the back surface for adhering to the second surface portion of the stator base and having a required pattern wiring conductor, and a printed wiring having a required number of patterned wiring conductors arranged in parallel. A base, a first connecting printed wiring part for connecting the pattern wiring conductor of the first printed wiring part and a required pattern wiring conductor of the printed wiring base, and a pattern wiring conductor of the second printed wiring part A flexible printed wiring board integrally having a second printed wiring portion for connection for connecting to a required pattern wiring conductor of the printed wiring base, and the first and second printed wiring portions are provided with the first printed wiring portion. By bending at the printed wiring part for connection of
And a second protrusion, which is adhered to each of the second surface portions, and has a tapered taper at the edge of the stator base on which the first and second printed wiring portions for connection are located, The first printed wiring portion and the second printed wiring portion, or the first connecting printed wiring portion and the second connecting printed wiring portion are adhered to each other on the front and back sides with the tapered protrusion interposed therebetween, and the respective patterns are attached. A lead wire drawing device for a motor, characterized in that the wiring conductor is connected to a terminal of a motor constituent element mounted on the stator base.