KR100568307B1 - A Small-Sized Motor - Google Patents

Abstract

A small motor is provided that facilitates processing of coils wound around a stator.

The small motor easy to process the coil includes a stator to which the coil is wound, and a rotor including a magnetic material inside the stator to be rotated when the coil is electrically applied, and a substrate seated on the stator. A substrate supporting means for guiding the coil while supporting the coil soldering portion of the coil is provided.

According to the present invention, a coil is wound in a small motor and a rotor is disposed therein, thereby improving the structure of a stator and a flexible substrate that allows electrical application of the coil while being laminated with the stator to provide driving force. By facilitating coil processing, as well as coil windings, as well as coil windings of the coils, improved effects can be obtained that improve the overall component assembly of small motors.

Small motor, stator, core, coil, coil winding, soldering

Description

A Small-Sized Motor with Easy Coil Processing             

1 is an enlarged perspective view showing a stator of a conventional small motor

2 is a view illustrating a coupling state of a stator of a conventional small motor and a flexible substrate for soldering a coil.

(a) is a coupling state diagram

(b) section

3 illustrates a stator in which a coil is wound in a conventional small motor,

(a) a plan view

(b) is a sectional view taken along the line A-A 'of Figure 3a.

Figure 4 is a schematic diagram showing a flexible substrate for solder binding of the coil in a conventional small motor

FIG. 5 is a view illustrating a coupling configuration of a stator and a flexible substrate in a small motor having easy coil processing according to the present invention.

(a) is a coupling state diagram

(b) is sectional drawing along the line B-B 'of FIG. 5A.

Figure 6 shows the stator of the small motor of the present invention,

(a) a plan view

(b) is a cross-sectional view taken along the line CC ′ of FIG. 6A including an enlarged view of the main portion;

7 is a plan view showing a flexible substrate in the small motor of the present invention

(A) and (b) of Figure 8 is a main view showing other embodiments of the stator in the small motor of the present invention

9 (a) and 9 (b) are main views showing embodiments of the coil guide means provided in the lower part of the stator in the small motor according to the present invention.

Explanation of symbols on the main parts of the drawings

1 .... small motor 10 .... coil

20 .. CORE 20a .... Stacked stator plates

22 .... Coil winding part 22a .... Stator body

30 .... flexible substrate 30a .... substrate body

32 .. Coil solder 40 .... Substrate support means

42 .. Coil breakout chuck 44 .... Groove

50a .... Bend Coil Guide Means 50b ... Downward Coil Guide Means

The present invention relates to a small motor that is easy to process a coil to facilitate the processing of the coil in a small motor, and more particularly to the stator and the stator to which the coil is wound and the rotor is disposed in the small motor to provide a driving force. By improving the structure of the flexible substrate that enables the electrical application of the coil, the coil winding of the stator, as well as the soldering of the coil, can be carried out more easily, thereby improving the overall assembly of parts of the small motor and the rate of defective parts. The present invention relates to a small motor that is easy to process a coil to prevent the damage.

Nowadays, most electric and electronic devices, such as home appliances, mobile phones, or other power sources, require the miniaturization of products to be used as a competitive advantage. The research on miniaturization is concentrated. Motor parts that provide a desired type of power, for example, electric rotational force, are also miniaturized in a device requiring miniaturization, and FIG. 1 illustrates a conventional small motor.

That is, as shown in FIG. 1, the conventional small motor 100 has a stator 120 in which a coil 110 is largely wound and mounted on a motor housing (casing), and the like, although not shown in the drawing. It is divided into a rotor (not shown) having a magnetic body that rotates with a magnetic force generated by.

At this time, the stator portion of the small motor is shown to be very enlarged in FIG. 1 and may be manufactured to be very thin.

Therefore, when electricity is applied to the coil, the rotor rotates inside the stator, and the shaft of the rotor rotates to provide rotational driving force of electric and electronic devices.

Meanwhile, in FIG. 2, in the conventional small motor of FIG. 1, a substrate in which the coil is bound for electric application of the coil wound on the coil winding part 122 of the stator 120 and the coil winding part 122 of the stator 120, that is, The assembling state between the flexible substrates (FPC) 130 is illustrated, and in FIGS. 3 and 4, the stator 110 and the substrate 130 are separated from each other, and a main portion thereof is illustrated.

That is, as shown in FIGS. 2 to 4, in the conventional small motor 100, when the coil 110 is wound around the coil winding 122 formed integrally in the inward direction of the stator 120, In the soldering unit 132 of the substrate 130 to be disposed is to be bound by soldering, etc., the soldering unit 132 of the substrate is a pattern provided on the substrate.

However, in the conventional small motor 100, as shown in FIGS. 2 to 4, the coil 110 wound while the flexible substrate 130 is disposed below the stator 120 is a substrate soldering part. When soldering to 132, the flexible substrate 130 is well bent, so that the coils may not be firmly supported during soldering.

In addition, since the flexible substrate 130 having the soldering portion 132 is disposed below the stator 120, the soldering is performed in a narrow space, so that in the conventional small motor 100, the soldering operation is very delayed or the soldering itself is performed. The defect is a problem that increases the product defect rate of the small motor, and delays the assembly process of the small motor as a whole.

And, as shown in Figure 3a, in the stator 120 in the conventional small motor 100, the coil guide structure for firmly supporting the coil by fastening the coil 110 is wound between the coil winding portion 122 This makes coil winding and coil binding difficult.

Therefore, in the conventional small motor 100, there is a problem that the overall assembly performance is inferior.

As a result, if the winding is wound on the stator 120 of the small motor and the soldering coil with the flexible substrate 130 for electric application is made easier, and the processing of the coil to be wound is facilitated, the solderability of the small motor may be improved while improving the product assembly. It will be preferable because the product failure rate by is lowered.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems. The object of the present invention is to provide a driving force by winding a coil in a small motor and arranging a rotor therein to provide driving force, and to electrically apply coils to the stator. To improve the structure of the flexible substrate to enable the coil winding and processing of the stator, as well as to facilitate the substrate connection work of the coil to provide a small motor easy to process the coil to improve the overall assembly of the small motor Is in.

In addition, another object of the present invention is to provide a small motor with easy coil processing to improve the productability of the small motor while preventing the solder failure due to easy and robust soldering of the flexible substrate of the coil.

The present invention as a technical configuration for achieving the above object, the stator coil is wound; And,

A rotor including a magnetic material inside the stator to be rotated when the coil is electrically applied;

Including,

The stator is provided with a substrate support means for guiding while supporting the coil soldering portion of the substrate seated on the upper side.

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

5 is a view showing a coupling configuration of the stator and the flexible substrate in a small motor easy to process the coil according to the present invention, Figure 6 is a view showing the stator of the small motor of the present invention, Figure 7 is a small motor of the present invention Figure 8 is a plan view showing a flexible substrate, Figure 8 is a main view showing other embodiments of the stator in the small motor of the present invention, Figure 9 is an embodiment of the coil guide means provided in the lower part of the stator in the small motor of the present invention It is a main figure.

First, in FIG. 5, the stator and the flexible substrate are coupled to each other in a planar configuration in a small motor in which coil processing is easy, and FIGS. 6 and 7 respectively illustrate the stator and the flexible substrate.

That is, as shown in FIG. 6, the small motor 1, which is easy to process the coil of the present invention, includes a stator 20 to which the coil 10 is wound, and a magnetic body including a magnetic body inside the stator 20. It consists of a rotor (not shown) that is driven to rotate when the electric is applied, wherein the stator 20 is provided with a substrate support means 40 for supporting the coil soldering portion 32 of the substrate 30 seated on the upper side It is.

At this time, as shown in Figure 6, in the small motor 1 of the present invention, the stator 20 is also referred to as a core (CORE), in the radial direction of the body portion 22a and the body portion 22a formed in a circular shape Several coil windings 22 are formed to protrude integrally at a predetermined angle.

Therefore, a coil is wound around the coil winding part 22 of the stator 20, and a magnetic body (not shown), for example, a rotor having a permanent magnet and a shaft that is rotationally driven is disposed therein so that electricity is supplied to the coil 10. When applied, the rotor is rotationally driven by the action between the magnetic force generated in the coil 10 and the magnetic force of the rotor permanent magnet.

At this time, as shown in Figure 6b, the stator 20 is actually composed of a single stator by stacking a number of stator plates (20a), the body 22a portion and the coil winding portion 22 portion It is laminated to its length.

In addition, FIG. 7 illustrates the flexible substrate 30 of the present invention. Compared with the flexible substrate 130 of the conventional small motor 100 of FIG. 4, the flexible substrate 30 of the present invention is different from the conventional method. Since it is located above the stator 20, the body 30a portion of the flexible substrate 30 is formed to be narrow in width with the body 22a portion of the stator 20.

At this time, as shown in Figure 5, the flexible substrate 30 of the present invention is formed in a semi-circle corresponding to the circular stator body (22a) to the coil winding of the stator 20 in the radial direction of the substrate body (30a) Coil soldering portions 32 located between the portions 22 are arranged.

By the way, the coil solder 32 is provided with approximately four so that the flexible substrate 30 is provided in a substantially semi-circular shape, while the substrate support means 40 of the stator 20 is approximately at a circumferential constant angle of the stator About 9 are provided, so that the flexible solder 30 can be positioned at any part of the stator 20, and the coil solder 32 is identical to the coil support means 40 of the stator 20. Can be.

Next, FIGS. 5 and 6 show the substrate supporting means 40 which is a structural feature of the small motor 1 of the present invention.

That is, as shown in Figure 6, the substrate support means 40 is provided to the stator 20 is located between the coil winding portion 22, the coil 10 is wound into a protrusion projecting integrally Is provided.

At this time, as shown in Figure 6b, the stator 20 is composed of a plurality of stator plates 20a are stacked, the substrate support means 40 is at least two stator plates 20a stacked on the top ), It may be formed integrally with the protrusion.

Accordingly, as shown in FIGS. 5 to 7, when the coil 10 wound on the coil winding part 22 of the stator 20 is wound while passing over to the adjacent coil winding part 22, the substrate located at the center thereof As the coil 10 is more stably bound to the stator while being bound to the support means 40 twice, the coil solder 32 of the flexible substrate 30 is positioned above the stator 20. Since the substrate support means 40 is provided to the stator 20 in correspondence with the soldering portion 32, the soldering portion 32 of the substrate is more stably supported, and the work space for soldering is wider. Soldering in coils neatly leads to soldering of the coils and processing of the coils through them.

8 illustrates another example of the substrate support means 40. For example, as illustrated in FIG. 8A, a coil detachment stop 42 is integrally provided in the substrate support means 40. Can be.

Therefore, the coil 10 bound to the substrate support means 40 provided on the stator 20 from the coil winding 22 of the stator can be effectively prevented from being separated from the substrate support means 40. will be.

Alternatively, as shown in FIG. 8B, it may be desirable to form the grooves 44 near the coil detachment stop 42 of the substrate support means 40.

That is, since the coil 10 is fitted into the groove 44 formed in the vicinity of the coil detachment stop 42 of the substrate supporting means 40, the coil 10 is more firmly bound, and thus, the small motor 1 of the present invention. In the coil 10 can be more firmly bound to the stator 20, which will lower the product failure rate of the small motor.

Meanwhile, FIG. 9 illustrates a coil guide means additionally provided to the stator 20 in the small motor 1 of the present invention, and the coil guide means 50a and 50b of the stator 20 It may be provided in the lower portion integrally, the position of the coil guide is preferably located between the coil winding 22 and the substrate support means 40 of the stator 20 shown in FIG.

Therefore, as shown in FIGS. 5 and 9, when the coil 10 wound on one side of the coil winding part 22 of the stator 20 crosses the adjacent winding part 22 in the small motor 1 according to the present invention. In the first stage, the coil guide means 50a and 50b are tightened while being tightened so that the coil 10 is not loosened inside the stator 20 and then wound around the substrate supporting means 40 twice. Again, the coil guide means 50a, 50b is wound around the adjacent coil winding 22, so that the coil 10 may be tightly wound by the coil guide means 50, which is the same as the conventional art. It will prevent soldering delays, and in particular, prevent soldering defects between coils and substrates, and shorten the overall assembly process of small motors while also improving product reliability.

At this time, the coil guide means, as shown in Figure 9a, consists of a bent form (50a) is formed integrally in a bent form at the bottom of the stator 20, or as shown in Figure 9b, the stator The lower protrusion 20 may be configured as a downward protrusion 50b having a coil fitting groove 50b 'formed therein.

Therefore, in the case of the bent type 50a coil guide means as shown in FIG. 9A, the coil guide is supported while the structure of the coil guide means is simple, thereby facilitating manufacture, whereas the fitting groove 50b ′ shown in FIG. 9B is provided. In the case of the downwardly protruding type 50b having a), fabrication is difficult, but it will prevent the coil 10 from loosening in the stator 20 by increasing the binding force of the coil.

Accordingly, in the small motor 1 which is easy to process the coil of the present invention, the winding and the binding state of the coil 10 are firm, and in particular, the soldering part of the flexible substrate 30 is easily soldered, so that the overall size of the small motor can be improved. It will lower the defective rate of products while improving the service life and assembly.

Thus, according to the small motor easy to process the coil of the present invention, the coil is wound in the small motor and a rotor is disposed therein, and the stator is provided with a driving force, and the stator is laminated with the stator and a flexible substrate that enables electrical application of the coil. It is not only easy to perform the soldering work for this when binding, but also the stator winding of the coil or the guide of the coil at the time of winding to facilitate the improvement of the overall motor productivity as well as the excellent quality of the product. To provide.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be varied and modified without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

Claims (8)

A stator 20 to which the coil 10 is wound; And, A rotor including a magnetic material inside the stator 20 to be rotated when the coil is electrically applied; It is configured to include, The stator 20 is provided with a substrate supporting means 40 for guiding the coil while supporting the coil soldering portion 32 of the flexible substrate 30 seated on the upper side. 2. The substrate support means (40) according to claim 1, wherein the substrate support means (40) is formed between the coil windings (22) provided to wind the coil (10) in the circumferential direction to the stator (20). Small motor characterized in that According to claim 1 or claim 2, The substrate support means 40 is characterized in that the coil soldering portion of the substrate and the coil winding prevention jaw 42 to coil the coil during soldering and prevent the separation is formed integrally at the end Small motor The small motor according to claim 3, wherein the groove 44 into which the coil is fitted is further formed near the coil detachment stop 42 of the substrate supporting means 40. According to claim 1 or 2, wherein the stator 20 is a stator plate (20a) is laminated integrally formed, The substrate support means 40 is a small motor, characterized in that formed integrally protruding from the upper stator plates of the stator plate (20a) The small motor of claim 1, wherein the stator 20 further includes coil guide means for guiding a coil that is integrally formed and wound on a lower portion of the stator 20. The small motor according to claim 6, wherein the coil guide means comprises a bent mold 50a which is integrally formed in a bent form under the stator 20. The small motor according to claim 6, wherein the coil guide means comprises a downward protrusion type 50b having a coil fitting groove 50b 'formed from the lower side of the stator 20 to the inside thereof.

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