KR20010027528A - Capstan motor - Google Patents

Abstract

PURPOSE: A capstan motor is provided in which movement of a core is prevented by a fixing member during the core and a plate are combined with a housing to accurately locate a hole device at a setting position on a circuit board. CONSTITUTION: A capstan motor includes an axis(10) of revolution, a rotor(20) that is fixed to the bottom of the axis of revolution and has a magnet(21) attached to the inner side, a housing(30) supported to the outer surface of the revolution axis through a plurality of bearings, and a core(41) that is placed at the bottom of the housing and has through-holes at an identical angle centering around the revolution axis. The capstan motor further has a stator(40) configured of a coil(42) wound around the core, a plate(50) that is located at the top of the housing and has screw holes with a small diameter formed corresponding to the through-holes, and a circuit board(60) set on the rear face of the plate and combined with a hole device for detecting magnetic flux. The capstan motor also includes a fixing member(100) for fixing the plate to the housing and preventing movement of the stator core.

Description

Capstan motor

The present invention relates to a capstan motor, and more particularly, to a capstan motor capable of slimming a product.

1 shows a general capstan motor.

It has a rotating shaft 10.

A rotor 20 is press-fitted to the lower end of the rotary shaft 10, and a magnet 21 is attached to an upper inner surface of the rotor 20.

The outer surface of the rotor 20 is for heat dissipation, and a plurality of fans 22 are provided at regular intervals.

A housing 30 is positioned on the outer circumferential surface of the approximately central side of the rotation shaft 10.

The housing 30 is roll-supported so as to be idling about the axis of rotation 10 through a plurality of bearings (B).

A stator 40 is installed at the lower end of the housing 30. The stator 40 is a core 41 formed by stacking a plurality of the stator 40, and the rotor 41 is wound several times on the core 41. It consists of a coil 42 for generating an electromagnetic force together with the magnet 21 of 20.

The wire W is drawn out from the coil 42 of the stator 40 and connected to the pattern through soldering on the circuit board 60 to be described later.

A plate 50 is installed on the upper part of the housing 30, and the plate 50 is connected to the housing 30 through a fixing screw S fastened through the core 41 from the lower part of the housing 30. Position).

A circuit board 60 is positioned on the bottom surface of the plate 50, and the hall element 70 is provided on the circuit board 60.

The position of the hall element 70 provided on the circuit board 60 is provided at a position adjacent to the magnet 21 of the rotor 20 as shown.

The role of the hall element 70 serves to perform appropriate speed control by detecting the number of revolutions of a hole (not shown) formed on the magnet 21 of the rotor 20 rotating at a high speed.

Reference numeral 80 is a roller provided for transporting the magnetic recording tape (not shown).

In the conventional capstan motor configured as described above, the rotor 20 and the rotating shaft 10 rotate at a high speed through the rotating electromagnetic force generated in the magnet 21 of the rotor 20 and the coil 42 of the stator 40, and the rotating shaft 10. The tape is conveyed at a predetermined speed through the roller 80 located at the upper end of the sheet.

However, in such a conventional capstan motor, the accuracy of the magnetic flux detection timing through the Hall element 70 is reduced, resulting in a problem that the rotational performance of the motor is degraded.

This problem is, as shown in FIG. 1, the stator 40 core 41 is fixed on the housing 30 through the fixing screw S together with the plate 50.

However, the through hole 41a of the core 41 has a relatively large diameter compared to the outer diameter of the fixing screw S. FIG.

Therefore, a flow is generated in the process of assembling the housing 30 through the fixing screw S, whereby the hall element 70 on the circuit board 60 positioned below the core 41 and the plate 50. ) Will be out of the exact setting position.

Therefore, the accuracy of the magnetic flux detection timing through the Hall element 70 which performs the magnetic flux detection at a specific position is lowered, resulting in lowering the efficiency of the motor.

In order to solve this problem, conventionally, as shown in FIGS. 2 and 3, the support 1 is supported between the poles of the core 41 or a hole 41b is formed in the core 41 and a jig ( It is proposed to insert 2).

However, the use of the shoring (1) is because the core 41 itself is being forced to one side, there is a partial flow prevention effect, but because it does not play a role of gap compensation, it is not a modern solution, The use of the jig 2 requires the operation of forming the holes 41b in the core 41 and the jig 2 separately, resulting in a problem of lowering the workability and increasing the unit cost.

The present invention was created in order to solve such a conventional problem, it is possible to prevent the flow in advance in the process of assembling the core to the housing in advance to achieve accurate position setting with the Hall element through this It is an object of the present invention to provide a capstan motor capable of improving performance by improving the accuracy of the magnetic flux detection timing.

1 is a cross-sectional view of a typical capstan motor,

2 and 3 are a plan view and an excerpt sectional view showing various embodiments for preventing the flow of the conventional core,

4 is a cross-sectional view of a capstan motor according to the present invention.

<Description of the code | symbol about the principal part of drawing>

10: axis of rotation 20: rotor

21: magnet 22: fan

30 housing 40 stator

41: core 42: coil

50: plate 60: circuit board

70: Hall element 80: roller

100: fixing means 111: head portion

112: cylindrical portion 113: screw portion

Capstan motor according to the present invention for achieving the above object, the rotation shaft; A rotor fixed to the lower end of the rotating shaft and having a magnet attached to an inner side thereof; A housing which is roll-supported by a plurality of bearings so as to idle on an outer circumferential surface of the rotating shaft; A stator installed at a lower end of the housing, the stator including a core having a through hole formed at an isometric angle about the rotation axis, and a coil wound around the core; A plate installed at an upper end of the housing and having a screw hole having a relatively small diameter at a position corresponding to the through hole of the stator core; A circuit board installed at a lower surface of the plate and having a Hall element coupled to detect magnetic flux; And fastening means for fastening through the lower part of the stator core toward the plate to fix the plate on the housing and prevent the flow of the stator core.

A preferred feature of the present invention is that the fixing means includes a head portion, a cylindrical portion extending from the head portion by a predetermined diameter and inserted into the through hole of the stator core, and extending from the cylindrical portion by a predetermined length. It is a fixed screw consisting of a screw portion that is screwed into the screw hole of the plate.

Another desirable feature of the present invention is that the through hole of the stator core and the screw hole of the plate are formed at equal intervals of 120 degrees about the rotation axis.

Hereinafter, a preferred embodiment of a capstan motor according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a cross-sectional view of a capstan motor according to the present invention.

Hereinafter, a description will be given with reference to FIG. 1 and like reference numerals refer to like parts.

As shown in the figure, the capstan motor according to the present invention includes a rotation shaft 10.

A rotor 20 is press-fitted to the lower end of the rotary shaft 10, and a magnet 21 is attached to an upper inner surface of the rotor 20.

The outer surface of the rotor 20 is for heat dissipation, and a plurality of fans 22 are provided at regular intervals.

A housing 30 is positioned on the outer circumferential surface of the approximately central side of the rotation shaft 10.

The housing 30 is roll-supported so as to be idling about the axis of rotation 10 through a plurality of bearings (B).

A stator 40 is installed at the lower end of the housing 30. The stator 40 is a core 41 formed by stacking a plurality of the stator 40, and the rotor 41 is wound several times on the core 41. It consists of a coil 42 for generating an electromagnetic force together with the magnet 21 of 20.

The wire W is drawn out from the coil 42 of the stator 40 and connected to the pattern through soldering on the circuit board 60 to be described later.

A plate 50 is installed on the upper portion of the housing 30.

At this time, the core 41 and the plate 50 of the stator 40 described above have substantially the characteristic elements of the present invention, and penetrate toward the plate 50 from the bottom of the stator 40 core 41. Position fixing on the housing 30 through the fastening means 100 is fastened.

To this end, a screw hole 50a is formed in the plate 50, and a through hole 41a having a relatively large diameter is formed in the corresponding core 41.

On the other hand, the fixing means 100 not only serves to fix the position of the plate 50 to the housing 30, but also simultaneously serves to prevent the flow of the core 41.

In the detailed structure of the fixing means 100, a head portion 111 is provided, and from this head portion 111, a cylinder is inserted into and inserted into the through hole 41a of the core 41 and approximately the same diameter. The part 112 is extended.

In addition, from the cylindrical portion 112, a screw portion 113 screwed to the screw hole 50a of the plate 50 is formed to extend.

That is, it has the formation of a screw consisting of the head portion 111 and the cylindrical portion 112 and the screw portion 113 of the fixing means (100).

On the other hand, the through hole 41a of the core 41 and the screw hole 50a of the plate 50 are 120 degrees about the rotation axis 10 at equal intervals in order to obtain a more effective flow prevention effect and excellent fastening force. It must be formed.

A circuit board 60 is positioned on the bottom surface of the plate 50, and the hall element 70 is provided on the circuit board 60.

The position of the hall element 70 provided on the circuit board 60 is provided at a position adjacent to the magnet 21 of the rotor 20 as shown.

The role of the hall element 70 serves to perform appropriate speed control by detecting the number of revolutions of a hole (not shown) formed on the magnet 21 of the rotor 20 rotating at a high speed.

Reference numeral 80 is a roller provided for transporting the magnetic recording tape (not shown).

In the conventional capstan motor configured as described above, the rotor 20 and the rotating shaft 10 rotate at a high speed through the rotating electromagnetic force generated in the magnet 21 of the rotor 20 and the coil 42 of the stator 40, and the rotating shaft 10. The tape is conveyed at a predetermined speed through the roller 80 located at the upper end of the sheet.

Since the magnetic flux detected through the hall element 70 in the process of rotating the rotor 20 and the rotating shaft 10 at a high speed is stable, the rotational efficiency can be improved.

This is because the rigid fixing of the plate 50 fixed to the housing 30 through the fixing means 100 and the flow of the core 41 are prevented.

That is, since the cylindrical portion 112 constituting the fixing means 100 is coupled to the through-hole 41a of the core 41 to prevent the flow of the core 41, the housing 30 together with the plate 50. The flow between them is prevented in the process of fixing the phase.

Therefore, the Hall element 70 on the circuit board 60 located below the plate 50 is accurately fixed to the setting position with the core 41, thereby improving the accuracy of stable magnetic flux detection timing. It is possible to improve the rotational efficiency through.

As described above, according to the capstan motor according to the present invention, in the process of coupling the core and the plate to the housing, it is possible to prevent the flow of the core through the fixing means so that the Hall element on the circuit board is accurately positioned at the setting position with the core. Lose.

Therefore, the rotational efficiency can be improved by improving the accuracy of the magnetic flux detection timing, and as a result, the performance of the motor can be improved.

Claims (3)

A rotating shaft; A rotor fixed to the lower end of the rotating shaft and having a magnet attached to an inner side thereof; A housing which is roll-supported by a plurality of bearings so as to idle on an outer circumferential surface of the rotating shaft; A stator installed at a lower end of the housing, the stator including a core having a through hole formed at an isometric angle about the rotation axis, and a coil wound around the core; A plate installed at an upper end of the housing and having a screw hole having a relatively small diameter at a position corresponding to the through hole of the stator core; A circuit board installed at a lower surface of the plate and having a Hall element coupled to detect magnetic flux; And fastening means for fastening through the bottom of the stator core toward the plate to fix the plate on the housing and to prevent the stator core from flowing. 2. The fixing means according to claim 1, wherein the fixing means includes a head portion, a cylindrical portion extending from the head portion to a predetermined diameter and inserted into a through hole of the stator core, and a predetermined length extending from the cylindrical portion. Capstan motor, characterized in that the fixing screw consisting of a screw portion screwed into the screw hole of the. The capstan motor according to claim 1, wherein the through hole of the stator core and the screw hole of the plate are formed at equal intervals of 120 degrees about the rotation axis.