JP2586679Y2 - motor - Google Patents

Description

[Detailed description of the invention]

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a motor.

[0002]

2. Description of the Related Art In a motor having a stator core, an insulator mounted in a surrounding shape around the stator core, and a stator composed of a coil wound thereon, when the stator is assembled, the stator is attached to a cylindrical portion of a housing. It was fitted and fixed in an outer fitting shape.

[0003] At that time, it was fixed using an adhesive.

[0004]

The present invention is to provide a Therefore, the stator tines
In the conventional method of fixing to the cylindrical part of the housing, the adhesive coating
Requires work, poor work efficiency, and incidence of poor adhesion
Was also relatively high.

Therefore, in the present invention, an adhesive is used.
The stator is securely mounted on the cylindrical part of the housing
Can be removed in the axial direction,
To provide a motor that does not cause rattling
With the goal.

[0006]

In order to achieve one of the above objects, a motor according to the present invention comprises a stator comprising a stator core, an insulator mounted on the stator core and a coil wound thereon. In the motor provided , the locking claw and the small axial direction are formed on the outer peripheral surface of the cylindrical portion of the housing.
And a cylindrical wall of the insulator.
The locking claw is locked to the end face of the
A notch is formed to prevent the insulator from coming off.
On the inner peripheral surface of the cylindrical wall of the
Small axial protrusion to prevent circumferential rattling of the stator
The recess is formed .

[0007] In addition, a cylindrical wall portion of the insulator,
An axial cut is formed.

[0008]

[Action] A locking claw and an axial direction are provided on the outer peripheral surface of the cylindrical portion of the housing.
And small uneven portions, and the cylindrical wall of the insulator
The locking claw is locked on the end face of the
To form a notch to prevent
The inner peripheral surface of the cylindrical wall portion is fitted to the small axial uneven portion, and
Axial small convex and concave portions to prevent rattling in the circumferential direction of the stator
In the case of formed, the locking claw of the cylindrical part is
With the notch of
Part and the small convex and concave part in the axial direction of the insulator.
If so, the stator can be assembled to the housing.

When the stator is assembled to the housing, the locking claw is locked in the notch, thereby preventing the stator from coming off in the axial direction. Are fitted, thereby preventing rattling in the circumferential direction of the stator.

[0010] In addition, the cylindrical wall portion of the insulator extends axially.
If notches are formed, external fitting to the cylindrical part of the stator
In this case, the cylindrical wall easily expands, making assembly work easier.
Become.

[0011]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described below in detail with reference to the drawings showing embodiments.

FIG. 1 shows a motor according to the present invention, specifically, a fan motor. The motor includes a stator 3 mounted on a cylindrical portion 2 of a housing 1 and an impeller 5 rotatably held via a slide bearing 4 fitted inside the cylindrical portion 2.

Thus, the stator 3 has the stator core 6
, A plastic insulator 7 attached to the surroundings, and a stator coil 8 wound thereon.
And consisting of

The insulator 7 includes a first member 9 fitted externally from one surface 6a of the stator core 6 and a second member 10 fitted externally from the other surface 6b of the stator core 6.

The first member 9 is, as shown in FIGS. 2 and 3,
The cylindrical wall portion 11, the one-side corresponding wall portion 12 corresponding to the one surface 6 a of the stator core 6, and the vertical portion extending from the outer edge of the one-side corresponding wall portion 12 (portions corresponding to the teeth 25 outer peripheral surface of the stator core 6 are omitted. ), And includes a hanging wall portion 13 and rising pieces 14 erected from the one-sided corresponding wall portion 12.

The second member 10 is erected from the cylindrical wall portion 15, the other surface corresponding wall portion 16 corresponding to the other surface 6b of the stator core 6, and the outer edge of the other surface corresponding wall portion 16 (see FIG. 2). A portion corresponding to the teeth 25 outer peripheral surface of the stator core 6 is omitted.)
A rising wall portion 17 and a hanging piece portion 18 extending from the other surface corresponding wall portion 16 are provided.

The first member 9 and the second member 10 are connected via a male and female locking mechanism M that locks each other.

As shown in FIG. 4, the male / female locking mechanism M includes a locking piece 19 provided on the hanging wall 13 of the first member 9 and a window provided on the rising wall 17 of the second member 10. 20 and formed from.

That is, a notch 21 is formed in the locking piece 19, and a concave groove 22 is formed in the rear surface above the window 20 in the rising wall 17 of the second member 10.

Therefore, if the first member 9 and the second member 10 are overlapped with the hanging wall portion 13 and the rising wall portion 17, the locking pieces 19
Are guided by the concave groove 22, the leading end of the locking piece 19 enters the window 20, and as shown in FIG. 4, the remaining portion 23 formed by forming the concave groove 22 in the notch 21. Are engaged, and the first member 9
And the second member 10 are connected.

That is, in the insulator 7 composed of the first member 9 and the second member 10, the stator core 6 is covered with a portion excluding the inner peripheral surface of the hole 24 and the outer peripheral surfaces of the teeth 25. .

The male and female locking mechanism M is disposed between the teeth 25 of the stator core 6 in this case. That is, two are arranged at 180 ° pitch in the circumferential direction or four at 90 ° pitch in the circumferential direction.

The male / female locking mechanism M is shown in FIG.
As shown in FIG. 3, a window 20 is provided on the first member 9 side,
The locking piece 19 may be provided on the member 10 side.

As described above, if the first member 9 and the second member 10 are connected via the male / female locking mechanism M, the first and second members 9 and 10 are firmly integrated, and an assembly line is provided. In this case, the insulator 7 is not separated before the coil 8 is wound, and assembling can be reliably automated.

In order to connect the first member 9 and the second member 10, the first member 9 and the second member 10 are mutually connected so that the locking pieces 19 and the windows 20 correspond to each other. To the first member 9
The hanging wall portion 13 of the second member 10 and the rising wall portion 17 of the second member 10 may be in contact with each other, and the connection can be performed simply and reliably.

Thus, on the outer peripheral surface 2a of the cylindrical portion 2 of the housing 1, as shown in FIG. 1, a locking claw 26 and a small axially uneven portion 27 (see FIG. 7) are provided.

That is, as shown in FIG. 7, two locking claws 26 are provided on one end surface 28 side of the cylindrical portion 2 so as to be symmetrically arranged with respect to the axis. The uneven portion 27 is provided on the one end surface 28 side of the cylindrical portion 2 in the circumferential direction with respect to the locking claw 26 by about 90 degrees.
It is arranged to be shifted by °.

As shown in FIG. 6, a pair of substantially V-shaped notches 29, 29 are formed in the end face 11a of the cylindrical wall portion 11 of the first member 9 of the insulator 7. This notch 29,
29 are arranged symmetrically with respect to the axis.

Further, the inner peripheral surface of the cylindrical wall portion 11 of the first member 9
On the end face 11a side of the pair 30, a pair of small axially convex concave portions 31, 31 are formed. The small axial concave portions 31, 31 are arranged so as to be shifted by 90 ° in the circumferential direction with respect to the cutout portions 29, 29.

Therefore, when the stator 3 is assembled to the cylindrical portion 2, as shown in FIGS.
6, 26 are engaged with the cutouts 29, 29 of the insulator 7, and the small axially concave and convex portions 27 of the cylindrical portion 2 and the small axially concave concave portions 31, 31 of the insulator 7 are fitted.

That is, the locking claws 26, 26 are locked in the notches 29, 29, thereby preventing the stator 3 from coming off in the axial direction (specifically, coming off in the direction of arrow A shown in FIG. 1). Since the small axially uneven portions 27, 27 and the small axially concave portions 31, 31 are fitted as shown in FIG. 9, the circumferential play of the stator 3 is prevented. .

Further, since the notch 29 has a substantially V-shape in the embodiment, when the locking claw 26 is locked in the notch 29, the displacement of the stator 3 in the circumferential direction is also prevented. I have.

The impeller 5 has a bowl-shaped base 33 in which the shaft part 32 is rotatably fitted to the slide bearing 4, and a rotor attached to the inner peripheral surface of the bowl-shaped base 33 via the yoke 34. A magnet 35 is provided.

On the outer peripheral surface of the bowl-shaped base 33, blades 36 are protruded.

As shown in FIG. 1, the sliding bearing 4 has a blind hole 37 which is open on one end surface 4a side.
The shaft 32 of the bowl-shaped base 33 is rotatably fitted to 37.

In this case, the magnetic center S of the stator 3
₁ is closer to the circuit board 39 by ε than the magnetic center S ₂ of the rotor magnet 35.

Therefore, when the impeller 38 rotates, the rotor magnet 35 is pulled inward in the axial direction as shown by the arrow B, and is moved from the blind hole 37 of the shaft 32 of the bowl-shaped base 33 in the direction of the arrow A. Is prevented from falling out.

On the outer surface 40 side of the bowl-shaped base 33, a finger guard 41 is provided.
This prevents the bowl-shaped base 33 from falling off in the direction of arrow A.
In FIG. 1, the upper end of the shaft portion 32 is slightly projected to prevent the entire outer surface 40 of the base portion 33 from contacting the finger guard 41 even when vibration or impact is applied, thereby preventing noise. I have.

The outer surface 40 of the bowl-shaped base 33 and the back surface 42 of the finger guard 41 face each other with a small dimension C.
A gap 43 is formed between the outer surface 40 and the back surface 42.

Accordingly, the bowl-shaped base 33 is provided with a finger guard.
It can rotate without touching 41 and without getting out. That is, the impeller 5 rotates smoothly without providing a mechanism for preventing detachment.

The circuit board 39 is provided with a hall element 44, a drive IC 45 and the like.

To assemble the motor constructed as described above, first, the first member 9 of the insulator 7 is externally fitted from one surface 6a of the stator core 6 and the second member 10 of the insulator 7 is The other side 6b
The first and second members 9 and 10 are externally fitted from the side and are connected via a male / female locking mechanism M.

In this state, the coil 8 is wound to form the stator 3. The stator 3 is fixed to the cylindrical portion 2 of the housing 1, the locking claw 26 is locked to the notch 29, and the stator 3 is small in the axial direction. As the concave / convex portion 27 and the small axial concave / convex portion 31 fit together,
The shaft 32 of the bowl-shaped base 33 is fitted in the blind hole 37 of the plain bearing 4
Should be inserted. Incidentally, if the stator 3 is fitted to the cylindrical portion 2 outside, when the cylindrical wall portion 11 of the insulator 7 is once expanded and the locking claw 26 is locked in the notch portion 29, the cylindrical wall portion 11 is locked.
Returns to its original cylindrical shape.

Accordingly, the work of assembling the stator 3, the work of assembling the stator 3 to the cylindrical portion 2, the work of attaching the impeller 5, and the like are extremely simple, and the work can be performed reliably.

Also, since the bearing structure is composed of the blind hole 37 and the shaft portion 32 rotatably inserted into the blind hole 37, there is an advantage that the bearing is simple and the cost is not increased.

The present invention is not limited to the above-described embodiment, and the design can be freely changed without departing from the gist of the present invention. For example, the notch 29 formed in the insulator 7 may be, It is not necessary to make the stator 3 into an L-shape. In other words, any shape may be used as long as the locking claw 26 is locked to prevent the stator 3 from coming off in the axial direction. Here, as shown by a two-dot chain line in FIG. 6, if a plurality of cuts 46 are formed in the cylindrical wall portion 11 of the insulator 7, when the stator 3 is externally fitted to the cylindrical portion 2, the cylindrical wall portion 11 is formed. Can be easily expanded and the assembling work becomes easier.

Also, with the small axial concave / convex portion 27 and the small axial concave / convex concave portion 31 fitted thereto, the depth of the concave portion and the projection of the convex portion can be freely changed. The pitch can be freely changed.

Further, the numbers of the locking claws 26, the small axial uneven portions 27, and the small axial concave portions 31 do not need to be limited to two, and can be freely changed.

[0049] Moreover, all the recesses or fitted to all of the convex portion in the axial direction small irregular portion 31 of the axial small uneven portion 27, all of the projections axially small unevenness of the axial concave convex portion 27 There is no need to fit all 31 recesses.

Further, the number of teeth 25 of the stator core 6 of the stator 3 is not necessarily limited to four, and the number of teeth of the first member 9 and the second member 10 of the insulator 7 is correspondingly increased. Not limited to four.

[0051] Incidentally, the insulator 7 and the housing 1 are both, as long as it is a resin molded article, during molding, there is an advantage that it is possible to form an axial small irregular portion 27 and the axial small convex concave portion 31.

[0052]

Since the present invention is configured as described above, the following effects can be obtained.

According to the motor of the first aspect, the adhesive is
Without using, the stator 3 is attached to the cylindrical portion of the housing 1.
2 and can be attached to the
The motor 3 prevents axial dropout and circumferential rattling.
As a result, a high quality motor can be provided.

According to the motor of the second aspect, the stator
3 is fitted to the cylindrical portion 2, the cylindrical wall of the insulator 7
The part 11 is easily expanded, and the assembling work becomes easier.

[Brief description of the drawings]

FIG. 1 is a sectional view showing an embodiment of the present invention.

FIG. 2 is a simplified front view of a stator.

FIG. 3 is a plan view of the insulator.

FIG. 4 is an enlarged sectional view of a main part.

FIG. 5 is an enlarged sectional view of a main part of a modification.

FIG. 6 is a perspective view of a main part of the insulator.

FIG. 7 is a simplified perspective view of a cylindrical portion of a housing.

FIG. 8 is a simplified perspective view showing an assembled state of a cylindrical portion and an insulator.

FIG. 9 is an enlarged sectional view of a main part.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Housing 2 Cylindrical part 2a Outer peripheral surface 3 Stator 6 Stator core 6a One surface 6b Other surface 7 Insulator 8 Stator coil 9 First member 10 Second member 26 Engagement claw 27 Small axial unevenness 29 Notch 31 Small axial protrusion M Male and female locking mechanism

──────────────────────────────────────────────────続 き Continued on the front page (58) Fields surveyed (Int. Cl. ⁶ , DB name) H02K 3/30-3/52 H02K 1/00-1/34 H02K 5/00-5/26

Claims (2)

(57) [Scope of request for utility model registration] 1. A stator core 6, an insulator 7 surrounding the stator core 6, and a coil 8 wound thereon.
At a motor having a stator 3 made of, housing
On the outer peripheral surface 2a of the cylindrical portion 2, a locking claw 26 and small unevenness in the axial direction are provided.
And a cylindrical wall of the insulator 7.
The locking claw 26 is locked to the end surface 11a of the portion 11 so that the stator 3
A notch 29 for preventing axial detachment of the
On the inner peripheral surface of the cylindrical wall portion 11 of the insulator 7, the axial direction
Fits to the small uneven part 27 and has a rattling in the circumferential direction of the stator 3
A motor characterized in that a small axial concave / convex portion 31 is formed to prevent the occurrence of a protrusion . 2. A cylindrical wall portion 11 of the insulator 7,
The motor of any preceding claim, wherein an axial cut (46) is formed .