KR100739516B1 - Brushless dc motor with a reduced thickness - Google Patents

Abstract

The brushless DC motor includes a magnetic pole plate 10 ′, a magnetic pole base 10, a coil assembly 20, a circuit board 40, and a rotor 30. Each of the magnetic pole plates 10 'and the magnetic pole base 10 is formed by punching a magnetic conductive plate, and includes a plurality of magnetic pole surfaces 11 and 11' and magnetically conductive tubes 12 and 12 ', each of which has a magnetic pole. Faces 11, 11 ′ are annularly disposed around each of the magnetically conductive tubes 12, 12 ′. The magnetically conductive tube 12 'of the magnetic pole plate 10' and the magnetically conductive tube 12 of the magnetic pole base 10 are fixedly mounted on one side around the other to form an axle tube. At least one bearing 121 is received in the axle tube for rotationally supporting the shaft 31 of the rotor 30. The magnetic pole face 11 of the magnetic pole base 10 and the magnetic pole face 11 'of the magnetic pole plate 10' are alternately arranged and positioned around the axle tube.

Brushless dc motor, magnetic pole plate, magnetic pole, coil assembly, circuit board, rotor

Description

BRUSHLESS DC MOTOR WITH A REDUCED THICKNESS}

1 is an exploded perspective view showing a first embodiment of a brushless DC motor according to the present invention.

2 is a cross-sectional view of the DC motor of FIG. 1.

3 is an exploded perspective view showing a second embodiment of a brushless DC motor according to the present invention.

4 is a cross-sectional view of the DC motor of FIG. 3.

5 is an exploded perspective view showing a third embodiment of a brushless DC motor according to the present invention.

6 is a cross-sectional view of the DC motor of FIG. 5.

7 is an exploded perspective view showing a fourth embodiment of a brushless DC motor according to the present invention.

8 is a cross-sectional view of the DC motor of FIG. 7.

9 is an exploded perspective view showing a conventional brushless DC motor.

The present invention relates to a brushless direct current motor having a reduced thickness.

9 shows a conventional brushless DC motor wound around an axis. The brushless DC motor has an upper magnetic pole plate 10a, a lower magnetic pole plate 10a, a coil assembly 20, a rotor 30, a circuit board 40, a metal axle tube 50, and a base 60. It includes. The upper and lower magnetic pole plates 10a are mounted at both sides of the bobbin 21 of the coil assembly 20 to form a stator. The stator and circuit board 40 are mounted around the metal axle tube 50 and stacked on the base 60. The rotor 30 includes a shaft 31 extending through the metal axle tube 50. As the poles of the plurality of magnetic pole surfaces 101 on the magnetic pole plate 10a are changed, the rotor 30 is driven to rotate. Although such brushless DC motors are widely used in various types of electronic devices, stators (coil assembly 20, bobbin 21, circuit board 40, metal axle tube 50, and upper and lower magnetic pole plates 10a) Too many parts). The parts of these stators are stacked on the base 60 to increase the overall thickness and overall volume of the brushless dc motor. Therefore, it is difficult to further reduce the overall thickness and volume of the brushless DC motor.

It is an object of the present invention to provide a brushless direct current motor comprising a pole base and a pole plate, each of which is formed by punching a magnetically conductive plate. Each pole base and pole plate comprises a plurality of pole faces and a magnetically conductive tube. The pole base can be used as a base on which parts of the stator are mounted, thereby reducing the number of parts of the brushless DC motor, simplifying the structure of the brushless DC motor and reducing the manufacturing cost of the brushless DC motor.

Another object of the present invention is to provide a brushless direct current motor which can be used as a base for mounting the stator's coil assembly and circuit board to reduce the axial thickness of the stator. Thus the overall thickness of the motor is reduced.

It is a further object of the present invention to provide a brushless dc motor which does not require the positioning means of the fixing means relative to the pole plate and the pole base. The pole plate and pole base can be assembled together by two magnetically conductive tubes, each of which is formed on the pole plate and the pole base. Therefore, the convenience and stability of the assembly is increased.

In order to achieve the above object, the present invention provides a magnetic pole plate formed by punching a magnetic conductive plate, a magnetic pole base formed by punching another magnetic conductive plate, a coil assembly mounted on the magnetic pole base, and mounted on the magnetic pole base. Provided is a brushless DC motor comprising a circuit board and a rotor.

The magnetic pole plate includes a plurality of magnetic pole surfaces and a magnetically conductive tube. The pole face of the pole plate is annularly positioned around the magnetic conductive tube of the pole plate. The pole base includes a plurality of pole faces and a magnetically conductive tube. The pole face of the pole base is annularly positioned around the magnetic conductive tube of the pole base.

The magnetically conductive tube of the magnetic pole plate and the magnetically conductive tube of the magnetic pole base are fixedly mounted on one side around the other to form an axle tube. At least one bearing is received in the axle tube for rotationally supporting the shaft of the rotor. The magnetic pole surface of the magnetic pole base and the magnetic pole surface of the magnetic pole plate are alternately arranged and positioned around the axle tube.

Other objects, advantages and novelties of the present invention will become more apparent from the following detailed description when read in conjunction with the accompanying drawings.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described in detail, and like reference numerals have been used for like parts as in the prior art to avoid further explanation.

1 and 2, a first embodiment of a brushless direct current motor according to the present invention includes a magnetic pole base 10 and a magnetic pole plate 10 ', each of which is preferably formed by punching a magnetic conductive plate. . The pole base 10 can be used as a base to mount the stator's coil assembly 20 and the circuit board 40. The pole base 10 is preferably punched to form a plurality of pole faces 11, a magnetically conductive tube 12, a plurality of fixing portions 13, and openings 14. The magnetic pole plate 10 'is punched to form a plurality of magnetic pole surfaces 11' and a magnetically conductive plate 12 '. The pole face 11 is preferably located spaced around the magnetic conductive tube 12 of the pole base 10. Likewise, the pole face 11 'is positioned spaced around the magnetic conductive tube 12' of the pole plate 10 '. In addition, the magnetic pole faces 11, 11 ′ are alternately positioned adjacent to the coil assembly 20.

The magnetic conductive tube 12 is formed by punching the central region of the magnetic pole base 10, and the magnetic conductive tube 12 ′ is formed by punching the central region of the magnetic pole plate 10 ′, The magnetically conductive tube 12 and the magnetically conductive tube 12 'of the magnetic pole plate 10' are fixedly mounted on one side around the other, thereby fixing the magnetic pole base 10 and the magnetic pole plate 10 'to each other. Thus, the magnetically conductive tube 12 of the pole base 10 and the magnetically conductive tube 12 'of the pole plate 10' together form at least one bearing 121 (oilless bearing or ball bearing) and support 122. Form a receiving axle tube. The bearing 121 not only rotationally supports the shaft 31 of the rotor 30 after assembly, but also the magnetically conductive tube 12 'of the magnetic pole plate 10 and the magnetically conductive tube 12' of the pole plate 10 '. Increase the strength of). The distal end of the rotor 30 shaft 31 is supported by the support 122 as shown in FIG.

In this embodiment, each fixing portion 13 is a protrusion extending radially outward from the outer circumference of the magnetic pole base 10 and has a hole 130 through which the fastener 131 passes, thereby dissipating the magnetic pole base 10. Secure it to the inner casing of an electronic device, such as a fan casing or notebook computer. The circuit board 40 includes an extension 41 on which the sensor 42 is mounted. The sensor 42 is located in the opening 14 adjacent to the permanent magnet 32 on the rotor 30 to detect the pole change of the permanent magnet 32.

In addition, the upper end of each of the magnetic pole surfaces 11 and 11 'includes notches 111 and 111' of appropriate shapes, so that when the power is connected, an uneven alternating magnetic field is formed so that the rotor 30 can be easily started. To help.

3 and 4 show a second embodiment of a brushless direct current motor, which is a variation of the first embodiment. In the present embodiment, the circuit board 40 is mounted below the magnetic pole base 10 to have excellent heat dissipation effect. The center hole is not needed in the circuit board 40 (see FIG. 1), so that more electronic components can be mounted on the circuit board 40. In addition, the length of the magnetic conductive tube 12 of the magnetic pole base 10 is reduced, and the magnetic conductive tube 12 of the magnetic pole base 10 is firmly connected to the inner circumference of the magnetic conductive tube 12 'of the magnetic pole plate 10'. Combined. A holder ring 311 is interposed between the end face of the magnetic conductive tube 12 of the magnetic pole base 10 and the end face of the bearing 121. The holder ring 311 is mounted around the reduced portion 33 of the distal end of the rotor 30 shaft 31 to constrain the position of the distal end of the rotor 30 shaft 31. A support 122 is mounted in the magnetic conductive tube 12 of the pole base 10 to support the rotor 30 shaft 31 distal end. The support 122 is engaged with the inner circumference of the magnetic conductive tube 12 of the magnetic pole base 10 and after assembly, the magnetic conductive tube 12 'of the magnetic pole base 10 and the magnetic conductive tube 12' of the magnetic pole plate 10 '. Increase the strength of). Therefore, the assembly stability of the magnetic conductive tube 12 of the magnetic pole base 10 and the magnetic conductive tube 12 'of the magnetic pole plate 10' is improved. In addition, in this embodiment, the fixing portion (denoted by reference numeral 13 ') is formed of a plurality of holes in the magnetic pole base 10 so that the brushless DC motor can be mounted at an appropriate position.

5 and 6 show a third embodiment of a brushless DC motor according to the invention. In this embodiment, the magnetically conductive tube (denoted by 12 ') of the magnetic pole plate 10' extends upwardly toward the rotor 30 and is shorter in length than in the first and second embodiments. The magnetically conductive tube 12 ′ of the magnetic pole plate 10 ′ is mounted on the outer circumference of the magnetic conductive tube 12 of the magnetic pole base 10, so that the magnetic conductive tube 12 ′ may rotate with the upper end of the magnetic conductive tube 12 of the magnetic pole base 10. The gap between the inner circumference of the electron 30 is reduced, and the gap between the upper end of the magnetic conductive tube 12 'of the magnetic pole plate 10' and the inner circumference of the rotor 30 is reduced. This prevents the shaft 31 of the rotor 30 from sticking to the dust inside the bearing 121. Thus, the life of the brushless DC motor is extended. In addition, the support 122 ′ is fixedly mounted to the inner circumference of the magnetic conductive tube 12. The rotor is interposed between the end face of the support 122 'and the end face of the bearing 121 by interposing a holder ring 311 for rotationally supporting the reduced portion 33 of the distal end of the rotor 30 shaft 31. (30) The position of the shaft 31 is bound. Preferably, the support 122 'includes an annular wall 123' to better bind the position of the rotor 30 shaft 31 distal end.

7 and 8 show a fourth embodiment of a brushless direct current motor according to the present invention, the magnetic pole base 10 having a slot for receiving a wire 43 connecting the sensor 42 with the circuit board 40. 15 is formed by punching. The sensor 42 is mounted directly to one of the plurality of openings 120 formed by punching the pole base 10 to form the pole face 11. The circuit board 40 of this embodiment has no extension (see FIGS. 1, 3, and 5) and is therefore relatively small in area. This also prevents an increase in the overall thickness of the brushless DC motor by laminating the circuit board 40 and the coil assembly 20 in the axial direction. The number of windings of the coil assembly 20 can also be increased to increase the alternating drive strength of the rotor.

While the principles of the invention have been described in terms of specific embodiments, those skilled in the art do not limit the scope of the invention, and any changes and modifications that do not depart from the spirit of the invention are within the scope of the invention as defined in the claims. It should be understood that it is included in.

The present invention provides a brushless direct current motor comprising a pole base 10 and a pole plate 10 'each formed by punching a magnetically conductive plate. Each of the magnetic pole base 10 and the magnetic pole plate 10 'includes a plurality of magnetic pole surfaces 11 and 11' and magnetically conductive tubes 12 and 12 '. The pole base 10 can be used as a base on which the parts of the stator are mounted, thereby reducing the number of parts of the brushless DC motor, simplifying the structure of the brushless DC motor, and reducing the manufacturing cost of the brushless DC motor. Let's do it.

Claims (17)

Formed by punching a magnetically conductive plate and having a plurality of pole faces 11 'that are annularly positioned around the magnetic conductive tube 12' and the magnetic conductive tube 12 '. Pole plate (10 '), A magnetic pole base formed by punching another magnetic conductive plate and including a magnetic conductive tube 12 and a plurality of magnetic pole surfaces 11 annularly positioned around the magnetic conductive tube 12 ( 10), A coil assembly 20 mounted on the pole base 10, A circuit board 40 mounted on the magnetic pole base 10, and Rotor 30 comprising shaft 31 and permanent magnet 32 Including, The magnetic conductive tube 12 ′ of the magnetic pole plate 10 ′ and the magnetic conductive tube 12 of the magnetic pole base 10 are fixedly mounted at one end around the other side to form an axle tube, At least one bearing 121 is received in the axle tube for rotationally supporting the shaft 31 of the rotor 30, Brushless DC motor, characterized in that the magnetic pole surface (11) of the magnetic pole base (10) and the magnetic pole surface (11 ') of the magnetic pole plate (10') are alternately arranged and located around the axle tube. The method of claim 1, The magnetic pole surface 11 of the magnetic pole base 10 is positioned spaced apart around the magnetic conductive tube 12 of the magnetic pole base 10, and the magnetic pole surface 11 'of the magnetic pole plate 10' is the magnetic pole. Brushless direct current motor, characterized in that it is spaced apart around the magnetic conductive tube (12 ') of the plate (10'). The method of claim 1, And each of the magnetic pole surfaces (11, 11 ') has a notch (111, 111') on its upper end. The method of claim 1, The magnetic conductive tube 12 of the magnetic pole base 10 is mounted in the magnetic conductive tube 12 'of the magnetic pole plate 10' and mounted around the shaft 31 of the rotor 30 and the magnetic pole base. And a holder ring (311) interposed between the end face of the magnetically conductive tube (12) of the (10) and the end face of the at least one bearing (121). The method of claim 4, wherein And a support (122) mounted on the inner circumference of the magnetically conductive tube (12) of the magnetic pole base (10) for rotationally supporting the distal end of the rotor (30) shaft (31). Leeth DC motor. The method of claim 5, The support (122 ') comprises an annular wall (123') for constraining the position of the end of the rotor (30) shaft (31). The method of claim 1, The magnetically conductive tube 12 'of the magnetic pole plate 10' extends toward the rotor 30, and the magnetically conductive tube 12 'of the magnetic pole plate 10' extends to the magnetic base of the magnetic pole base 10. Brushless DC motor, characterized in that the clearance between the upper end of the axle tube and the inner circumference of the rotor (30) by being mounted around the conductive tube (12). The method of claim 1, The circuit board 40 further comprises an extension 41 on which the sensor is mounted, the sensor 42 being positioned under the permanent magnet 32 of the rotor 30. Brushless DC Motor. The method of claim 8, The pole base (10) is a brushless DC motor, characterized in that it comprises an opening (14) for receiving the sensor (42). The method of claim 1, The magnetic pole base 10 includes a slot 15, the circuit board 40 includes a wire 43 and a sensor 42 connected to the wire 43, and the wire 43 is the A brushless direct current motor, characterized in that it extends along a slot (42), wherein the sensor (42) is located below the permanent magnet (32) of the rotor (30). The method of claim 10, The magnetic pole base 10 includes a plurality of openings 120 formed as a result of punching the magnetic pole base 10 to form the magnetic pole surface 11 of the magnetic pole base 10, and the sensor 42 Brushless DC motor, characterized in that located in one of the plurality of openings (120). The method of claim 1, The circuit board (40) is a brushless DC motor, characterized in that mounted below the magnetic pole base (10). The method of claim 1, The magnetic pole base (10) is a brushless DC motor, characterized in that it comprises a plurality of fixing parts (13) for mounting the magnetic pole base (10) in a predetermined position. The method of claim 13, Each of the fixing parts (13) is a protrusion projecting radially outward from the outer circumference of the magnetic pole base (10), and further comprising a hole (130) formed in the protrusion. The method of claim 13, Brushing DC motor, characterized in that each of the fixing portion (13 ') is a hole formed in the magnetic pole base (10). The method of claim 1, Brushless DC motor, characterized in that the magnetic conductive tube (12 ') of the magnetic pole plate (10') is located in the center of the magnetic pole plate (10 '). The method of claim 1, Brushless DC motor, characterized in that the magnetic conductive tube (12) of the magnetic pole base (10) is located in the center of the magnetic pole base (10).

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