KR820001964Y1 - Stator fabricating constructure for motor - Google Patents

Abstract

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Description

Stator assembly structure of motor

1 is a plan view of one embodiment of a stator assembly structure of a motor according to the present invention.

2 is a cross-sectional view taken along the line II-II of FIG.

3 is a perspective view of a support wall.

4 is a perspective view of the support column.

The present invention relates to a stator assembly structure of a motor for mounting a stator such as a step motor on a fingerboard of a synthetic resin.

In recent years, synthetic resins of watch parts have been rapidly developed, and fingerboards are integrally molded with synthetic resins, and assembly of each part thereof has become practical.

Although a step motor is used for a quartz watch or the like, in order to reduce the size, it is necessary to assemble the rotor and the stator of the step motor on a finger board.

In a synchronous motor such as a step motor, the delicate phase relationship between the rotor and the stator magnetic pole is greatly influenced by the operation characteristics, and therefore, the position of the rotor and the stator mounted on the fingerboard is required to have high precision.

Conventionally, in this type of clock, the bearing of the rotor and the projection to be used for positioning the stator in the vicinity of the bearing are formed on the fingerboard of the synthetic resin, and the hole to be used for positioning is formed in the stator, and the hole is inserted into the projection. The stator was installed at a predetermined position on the fingerboard.

However, since the projections on the fingerboard are made of synthetic resin, the degree of dimension is sufficient, and there are various problems such as dimensional error due to temperature, and the relative position of the motor and the stator is staggered, resulting in deterioration of characteristics as a step motor. There was a flaw.

The present invention has been made to solve such drawbacks of the related art, and its object is to provide a motor with a simple configuration that allows the stator to be placed on a fingerboard at a high dimension, resulting in a low cost and improving the performance of the motor. It is to provide a stator assembly structure.

In order to achieve this object, the present invention provides a supporting water part and a side end portion between the magnetic pole side and the magnetic pole side where the rotor is disposed on the outer surface opposite to the magnetic pole of the first and second stator parts constituting the stator, respectively. It is to be attached to the stator on the fingerboard by abutting the support column formed on the fingerboard, the magnetic pole side with the support wall, and the side end portions with the support pieces formed on the support wall, respectively.

Next, the present invention will be described in detail with reference to the drawings.

1 is a plan view of an embodiment of a stator assembly structure of a motor according to the present invention, and FIG. 2 is a cross-sectional view taken along the line II-II of FIG.

In the fingerboard 1 made of polyacetal resin or the like integrally, support walls 2, 3, support columns 4, 5 and props 6, 7 are placed. The rotor bearing hole 8 and the gear bearing hole 9 are drilled.

Moreover, the support pieces 10 and 11 are formed in the support wall 2 and 3 in the inner surface side, respectively. On the other hand, the stator made of magnetic material is composed of the first stator portion 20 and the second stator portion 21, and both of them are in contact with the bobbin 23 on which the coil 22 is wound.

The first stator portion 20 has a semicircular shape of a magnetic pole 24 to avoid the support shaft 6 and a hole 25 to avoid the tooth shaft when the gear side is squeezed into the gear bearing hole 9. Magnetic pole side ends 26 and 27 formed on the tip between the cutout and the magnetic pole side surface are formed in a concave shape on the outer surface opposite to the magnetic pole, and a support water portion 28 is provided. Similarly, the second stator portion 21 is provided with a hole 29, a pole side end portion 30, 31, and a support water portion 32.

The magnetic poles of the first stator portion 20 and the magnetic poles of the second stator portion 21 are eccentric in each semicircular cutout for the good maneuverability of the rotor. One rotor 40 is arranged.

The magnetic pole side ends 26 and 30 and the magnetic pole side ends 27 and 31 face each other with a gap. The magnetic pole sides of both stator portions are arranged in a straight line, and both magnetic pole sides are formed in parallel.

In such a configuration, when the first stator 20 and the second stator 21 are assembled into the stator plate 1 while being assembled as a stator, the first stator 20 and the second stator are installed. As for the magnetic pole of (21), both sides are supported by the support walls 2 and 3, and the position of an up-down direction is defined as seen from a figure.

In addition, since the support columns 4 and 5 are formed on the back of the craters 12 and 13, respectively, and have the elasticity in the magnetic pole direction (the left and the right direction in the drawing, the support column 4 is the support water portion ( 28, the magnetic pole side ends 26 and 27 are brought into contact with the seating surfaces of the support pieces 10 and 11, respectively, and the support column 5 pushes the central portion of the support water part 32 to push the magnetic pole side ends ( 30 and 31 are abutted on the right side of the support pieces 10 and 11, respectively, and the position in the left and right directions is defined in the drawing.

Here, the gap between the support walls 2 and 3 is formed equal to the width of the magnetic pole, and the width of the support pieces 10 and 11, in particular the width of the base, is the magnetic pole side ends 26 and 30, The gaps in (27) and (31), in particular, are formed in the same manner as the gaps in the outer ends.

Moreover, the curvature of the contact surface of the support column 4 and 5 is formed larger than the curvature of the center part of the support column 28 and 32, and the support column 4 and 5 always support the support column 28 It is in contact with the center of the (32). 3 is a perspective view of the support wall 2. The support wall 2 and the support piece 10 are also tapered in the upper edge so that the stator can be press-fitted easily.

At the time of assembly, the surface portions 2a and 2b of the support wall 2 contact the magnetic pole side surfaces of the stator to support them in the vertical direction, and the surface portions 10a and 10b of the support piece 10 The magnetic pole side ends 26 and 30 of the stator are contacted and supported in the left and right directions.

In addition, the support piece 10 is tapered at the tip, and the surface portions 10c and 10d near the tip are not in contact with the magnetic pole side end. The support wall 3 is also the same shape. 4 is a perspective view of the support column 5. A tapered planar is applied so that the stator stator of the support column 5 is easy to press-fit.

At the time of assembly, the curved surface portion 5a comes into contact with the innermost central portion of the support water portion 32 of the stator and pushes it. Moreover, the support column 4 is also the same shape.

Thus, since the 1st stator part 20 and the 2nd stator part 21 are also supported by three points separated, it does not deviate in any direction.

It is effective that the distance of the support point is reduced so that the error of the dimension can be reduced by that much. In addition, in this embodiment, since the support column 4 and 5 have elasticity in the magnetic pole direction, it is possible to absorb the error of the dimensional accuracy of this part, and the indentation strength of the stator can be set to an appropriate value, so that the indentation work is easy. Done.

The dimensional displacement of the fingerboard due to temperature is also absorbed to some extent. In addition, if the stator has a heavy weight, the support column is blown when the inertia is largely fixedly supported on the fingerboard, but if it is elastically supported, the support column is absorbed and the support column is not blown.

The present invention can be applied to a wide range of watches, clocks, timers, and instruments.

As described above, according to the stator assembly structure of the motor according to the present invention, it is not necessary to drill the stator, and since the position is determined using only the outer surface, the structure is simple and the dimensional position is high.

In addition, the workability is remarkably improved because the assembly can be performed by simply pressing and mounting the stator on the ground. Therefore, the cost of the motor is low and the performance is improved.

Claims (1)

In the stator assembly structure of a motor for mounting a stator comprising a first stator portion and a second stator portion facing each other on a substrate made of synthetic resin, the first stator portion and the second stator portion may be provided on an outer surface opposite to the magnetic pole. Magnetic pole side ends formed so as to have opposing pores at the tip between the supporting water 28 and 32 formed in the concave shape and the semicircular cutout of the magnetic pole on which the rotor 40 is disposed and the magnetic pole side surface ( 26, 27, 30, and 31, respectively, and the fingerboard 1 is positioned at the positions of the support poles 4 and 5 and the magnetic pole side, respectively, which are set up at the positions of the support bodies 28 and 32, respectively. A support wall (2,3), etc., each of which is placed in the gap between the magnetic pole side ends (26, 27, 30, 31) to form a support piece (10, 11), and the support column (4, 5). The support walls (2, 3) to the support side (28, 32) on the magnetic pole side and the support pieces (10, 11) on the magnetic pole side ends (26, 27, 30, 31), respectively. The stator assembly structure of a Motor, characterized in that the device for the stator on the base plate (1).