KR102202000B1 - Ceiling Fan Motor - Google Patents

Abstract

A ceiling fan motor according to the present invention includes: a housing assembly (10) including an upper housing (11) and a lower housing (12) coupled to the upper housing (11); a stator assembly (20) including a stator core (21), an upper insulator (22) coupled to an upper portion of the stator core (21), and a lower insulator (23) coupled to a lower portion of the stator core (22); a shaft (24) coupled to a shaft coupling hole (211) formed in a center of the stator core (21); a shaft fixing ring (30) seated on a stepped portion (244A) formed at a boundary of a lower end (244) of the shaft (24); and a printed circuit board (40) having a shaft fixing hole (41) coupled to the lower end (244) of the shaft (24), wherein the shaft fixing ring (30) has a ring body (31) and an upper protrusion (32) formed on an upper portion of the ring body (31), and the upper protrusion (32) is seated in a protrusion fixing groove (244B) formed in the stepped portion (244A).

Description

Ceiling Fan Motor {Ceiling Fan Motor}

The present invention relates to a ceiling fan motor. More specifically, the present invention relates to a sealing fan motor having a structure in which stable fixing of a shaft and a printed circuit board is made, workability is improved, and a stable operation of the rotor is possible.

In general, the ceiling fan motor is an electric device that rotates a fan for air circulation by being installed on a ceiling indoors. These ceiling fan motors are manufactured in various types of structures, and generally include a fixed stator assembly and a rotor assembly in which blades of the fan are installed to rotate.

The ceiling fan motor rotates while hanging from the ceiling, and PCT International Publication No. WO 2009/090662 (hereinafter referred to as'prior art 1') and US Patent Publication No. 2015/0004022 (hereinafter referred to as'prior technology 2) as a prior art of such a ceiling fan motor. '). In this prior art, a stator is installed on a shaft fixed to a ceiling, and a rotor rotatably coupled to the shaft is coupled to the shaft via a bearing. In addition, current must be supplied to the stator and a printed circuit board equipped with a controller for controlling the motor must be installed together with the stator.

Prior art 1 proposes a structure in which an annular bracket is installed on a shaft and a printed circuit board is coupled to a hook-shaped protrusion protruding from the bracket. According to this structure, since a process of assembling the bracket to the shaft is required, an unnecessary assembly process is added. In addition, when assembling the printed circuit board, since the hook-shaped protrusion is formed at a symmetrical position, the printed circuit board may not be assembled in the correct direction and may be rotated in a predetermined direction.

Prior art 2 proposes a structure in which the printed circuit board is fixed by a clip at the lower center of the stator. In the prior art 2, since the stator and the printed circuit board are combined, a separate bracket is not required as in the prior art 1, but since a clip must be formed on the stator, the structure of the stator must be changed or a separate clip must be installed. In addition, since there is no reference point for determining the direction in which the printed circuit board is coupled, the problem of prior art 1 is as it is.

Accordingly, the present inventors propose a ceiling fan motor having a new structure in order to solve the above-described problem.

An object of the present invention is to provide a sealing fan motor having an improved installation structure of a printed circuit board.

Another object of the present invention is to provide a ceiling fan motor with improved assembly properties.

All of the above objects and other inherent objects of the present invention can be easily achieved by the present invention described below.

The ceiling fan motor according to the present invention

A housing assembly (10) comprising an upper housing (11) and a lower housing (12) coupled to the upper housing (11);

A stator assembly (20) including a stator core (21), an upper insulator (22) coupled to an upper portion of the stator core (21), and a lower insulator (23) coupled to a lower portion of the stator core (22);

A shaft 24 coupled to a shaft coupling hole 211 formed in the center of the stator core 21;

A shaft fixing ring 30 seated on the stepped portion 244A formed at the boundary of the lower end portion 244 of the shaft 24; And

A printed circuit board 40 having a shaft fixing hole 41 for coupling to the lower end 244 of the shaft 24;

Including, the shaft fixing ring 30 has a ring body 31 and an upper protrusion 32 formed on the upper portion of the ring body 31,

The upper protrusion 32 is characterized in that it is seated in the protrusion fixing groove 244B formed in the stepped portion 244A.

In the present invention, the shaft fixing ring 30 further includes a lower protrusion 33 formed at a lower portion of the ring body 31, and the lower protrusion 33 is a protrusion formed at one side of the shaft fixing hole 41 It is preferable to be coupled to the fixing hole (41A).

In the present invention, it is preferable that the protrusion fixing hole 41A forms one hole with the shaft fixing hole 41.

In the present invention, the lower protrusion 33 has a "D" shape in a planar shape, and the shape of the protrusion fixing hole 41A is in a "D" shape corresponding to the shape of the lower protrusion 33 It may be formed.

In the present invention, the upper protrusion 32 has a "D" shape in a planar shape, and the shape of the protrusion fixing groove 244B is formed in a "D" shape corresponding to the shape of the upper protrusion 32 It is desirable to be.

The present invention has the effect of the present invention to improve the installation structure of a printed circuit board and to provide a sealing fan motor with improved assembly properties.

1 is a perspective view showing a ceiling fan motor according to the present invention.
2 is a perspective view as viewed from above by disassembling the ceiling fan motor according to the present invention.
3 is a perspective view as viewed from below by disassembling the ceiling fan motor according to the present invention.
4 is an exploded perspective view showing the stator assembly of the ceiling fan motor according to the present invention.
5 is an exploded perspective view showing a stator assembly and a printed circuit board of a sealing fan motor according to the present invention.
6 is a perspective view showing a shaft fixing ring of the ceiling fan motor according to the present invention.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a ceiling fan motor 100 according to the present invention, FIG. 2 is a perspective view viewed from above by exploding the ceiling fan motor 100 according to the present invention, and FIG. 3 is a perspective view viewed from the bottom, FIG. 4 is an exploded perspective view showing the stator assembly 20 of the sealing fan motor 100 according to the present invention. 1 to 3, the sealing fan motor 100 according to the present invention includes a housing assembly 10, a stator assembly 20, and a shaft fixing ring 30 and a printed circuit board 40. do.

The housing assembly 10 includes an upper housing 11 and a lower housing 12 coupled to each other, and may further include a motor cover 13 coupled to a lower portion of the lower housing 12. The upper housing 11 has an upside down cup shape, and an upper bearing insert 111 protruding upward is formed in the center. The upper bearing 25 is coupled to the inner space of the upper bearing insert 111. A lower bearing insert 121 is formed in the center of the lower housing 12, and the lower bearing 26 is inserted and fixed in the inner space of the lower bearing insert 121. The motor cover 13 covers the lower surface of the lower housing 12. The upper housing 11, the lower housing 12, and the motor cover 13 may be coupled to each other by a plurality of bolts coupled to these outer circumferential portions. The motor cover 13 is shown to be a separate member from the lower housing 12, but the motor cover 13 does not necessarily have to be coupled to the lower portion of the lower housing 12, and the lower shape of the lower housing 12 According to this, the motor cover 13 may be omitted. A plurality of magnets 110 are coupled along the inner wall surface of the upper housing 11. Since the magnet 110 is installed to face the stator assembly 20, the magnet 110 is influenced by a changing magnetic field generated in the stator assembly 20 so that the housing assembly 10 can rotate. The number of magnets 110 is not particularly limited and may be applied in various numbers depending on the number of poles of the motor.

The stator assembly 20 includes a stator core 21, an upper insulator 22 and a lower insulator 23 coupled to the upper and lower portions of the stator core 31, respectively, and a shaft coupling hole in the center of the stator core 21 It includes a hollow shaft 24 coupled to 211 and fixed to the ceiling. Coils (not shown) are wound around the upper and lower insulators 22 and 23. A lead wire (not shown) for applying power to the stator core 21 is drawn out to the ceiling through the hollow portion 241 which is a space inside the shaft 24. The plurality of wiring holes 242 formed on the side surfaces of the shaft 24 are holes through which lead wires pass.

In this way, when power is applied to the fixed stator assembly 20, the housing assembly 10 rotates by applying a rotational force to the magnet 110 by an electromagnetic field generated. A blade (not shown) of a sealing fan is coupled to the housing assembly 10 and rotates to circulate air in the room. A fixing part 243 is formed on the outer circumferential surface of the shaft 24 by a process such as knurling, and the fixing part 243 is coupled to the shaft coupling hole 211 of the stator core 21. The lower bearing 26 is rotatably coupled to the lower portion of the fixing part 243. The lowermost portion of the shaft 24 is formed with a lower end portion 244 extending downwardly with a reduced diameter. Since the diameter of the portion where the lower end portion 244 starts is reduced, a step portion 244A is formed between the portion having a large diameter and a portion having a small diameter. A protrusion fixing groove 244B is formed in the stepped portion 244A. While the upper protrusion 32 of the shaft fixing ring 30 is seated in the protrusion fixing groove 244B, the fixing ring 30 is press-fitted into the stepped portion 244A of the shaft 24 to be fixed.

The shaft fixing ring 30 is a ring-shaped member positioned at and fixed to the stepped portion 244A of the shaft 24. When the printed circuit board 40 is coupled to the shaft 24, the printed circuit board 40 Provides precise direction. The printed circuit board 40 has a shaft fixing hole 41A in which the lower end 244 of the shaft 24 is press-fitted in the center, and a plurality of elements 42 are mounted at the lower portion thereof. The coupling relationship between the shaft fixing ring 30 and the printed circuit board 40 will be described again with reference to FIGS. 5 and 6.

5 is an exploded perspective view showing the stator assembly 20 and the printed circuit board 40 of the sealing fan motor 100 according to the present invention, and FIG. 6 is a perspective view showing the shaft fixing ring 30. 5 and 6 together, the shaft fixing ring 30 of the present invention is press-fitted to the lower end 244 of the shaft 24 to be coupled, and the printed circuit board 40 is at the lower end of the shaft 24, And it is coupled to the lower shaft fixing ring (30).

The shaft fixing ring 30 includes a ring body 31, an upper protrusion 32 formed on the upper portion of the ring body 31, and a lower protrusion 33 formed under the ring body 31. The upper protrusion 32 is seated in the protrusion fixing groove 244B of the shaft 24. Preferably, the upper protrusion 32 has a "D" shape in its planar shape, and the shape of the protrusion fixing groove 244B corresponds to the shape of the upper protrusion 32 so that the step portion 244A has a "D" shape. ) Is formed by cutting.

The lower end 244 of the shaft 24 is press-fitted into the shaft fixing hole 41 formed in the center of the printed circuit board 40 to be coupled. One side of the shaft fixing hole 41 is formed with a protrusion fixing hole 41A. The lower protrusion 33 of the shaft fixing ring 30 is pressed into the protrusion fixing hole 41A to be coupled. The protrusion fixing hole 41A has a shape in which the shaft fixing hole 41 is extended to one side as shown in FIG. 5, so that the shaft fixing hole 41 and the protruding fixing hole 41A may form one hole, but the protrusion The fixing hole 41A may be formed as a hole separate from the shaft fixing hole 41. On the other hand, the protrusion fixing hole 41A may have a shape of a groove rather than a hole. Preferably, the lower protrusion 33 has a "D" shape in its planar shape, and the shape of the protrusion fixing hole 41A also corresponds to the shape of the lower protrusion 33, so that the shaft fixing hole ( One side of 41) is formed by drilling or cutting.

It should be noted that the description of the invention described above is merely an example for understanding the invention, and is not intended to define the scope of the invention. The scope of the present invention is defined by the appended claims below, and all simple modifications or changes of the present invention within this scope should be understood as belonging to the protection scope of the present invention.

10: housing assembly 11: upper housing
12: lower housing 13: motor cover
20: stator assembly 21: stator core
22: upper insulator 23: lower insulator
24: shaft 30: shaft fixing ring
31: ring body 32: upper protrusion
33: lower protrusion 40: printed circuit board
41: shaft fixing hole 42: element
100: ceiling fan motor 110: magnet
111: upper bearing insert 121: lower bearing insert
211: shaft coupling hole 241: hollow
242: wiring hole 243: fixed part
244: lower part

Claims (5)

A housing assembly (10) comprising an upper housing (11) and a lower housing (12) coupled to the upper housing (11);
A stator assembly (20) including a stator core (21), an upper insulator (22) coupled to an upper portion of the stator core (21), and a lower insulator (23) coupled to a lower portion of the stator core (21);
A shaft 24 coupled to a shaft coupling hole 211 formed in the center of the stator core 21;
A shaft fixing ring 30 seated on the stepped portion 244A formed at the boundary of the lower end portion 244 of the shaft 24; And
A printed circuit board 40 having a shaft fixing hole 41 for coupling to the lower end 244 of the shaft 24;
Including, the shaft fixing ring 30 has a ring body 31 and an upper protrusion 32 formed on the upper portion of the ring body 31,
The upper protrusion (32) is a ceiling fan motor, characterized in that seated in the protrusion fixing groove (244B) formed in the step portion (244A). The method of claim 1, wherein the shaft fixing ring (30) further comprises a lower protrusion (33) formed at a lower portion of the ring body (31), and the lower protrusion (33) is at one side of the shaft fixing hole (41). Ceiling fan motor, characterized in that coupled to the formed projection fixing hole (41A). The ceiling fan motor according to claim 2, wherein the protrusion fixing hole (41A) forms one hole with the shaft fixing hole (41). According to claim 2, The lower protrusion (33) has a planar shape of a "D" shape, and the shape of the protrusion fixing hole (41A) is a "D" shape corresponding to the shape of the lower protrusion (33). Ceiling fan motor, characterized in that formed in the form. According to claim 1, The upper protrusion (32) has a planar shape of a "D" shape, and the shape of the protrusion fixing groove (244B) is a "D" shape corresponding to the shape of the upper protrusion (32) Ceiling fan motor, characterized in that formed of.

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