KR20120002879A - Fan motor assembly - Google Patents

Abstract

The present invention relates to a fan motor assembly, in accordance with an aspect of the present invention, a fan including a plurality of blades and a fan hub to which the plurality of blades are fixed; A motor assembly installed inside the fan hub; And a frame in which a motor fixing part into which one end of the motor assembly is inserted and fixed is formed therein.

Description

Fan Motor Assembly {FAN MOTOR ASSEMBLY}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fan motor assembly, and more particularly, to a fan motor assembly used in a refrigerator, an air conditioner, or the like, as a means for blowing air.

Generally, the fan motor assembly includes a fan for generating a flow of air, a motor for driving the fan, and a frame in which the motor and the fan are fixed. 1 is an exploded perspective view showing an example of such a fan motor assembly, wherein the fan 10 includes a hub 12 and a plurality of blades 14 formed on an outer circumferential surface of the hub 12.

A motor 20 for driving the fan 10 is installed inside the hub 12, and the rotating shaft 22 of the motor 20 is fixed to the hub 12 to rotate the rotating shaft 22. Therefore, the fan 10 is rotated. On the other hand, the motor 20 is fixed to the frame 30 having a substantially rectangular shape. The frame 30 includes a rim 32 corresponding to an outer circumference and a fixing plate 34 positioned at the center of the rim 32, and the fixing plate 34 is formed by four spokes 36. It is connected with 32.

On the other hand, the motor 20 is fixed on the fixing plate 34 by bolts or screws. Specifically, the lower bracket (not shown) located on the bottom surface of the motor 20 and the fixing plate 34 are screwed so that the motor 20 is firmly coupled to the frame 30. However, the coupling structure as described above not only makes the assembly work cumbersome but also has the problem of increasing the number of parts required for assembly.

In addition, since the motor is exposed to the outside, there is a problem in that the structure of the motor is complicated because a molding part for protecting the printed circuit board positioned inside the motor must be separately provided inside the motor.

The present invention has been made to overcome the disadvantages of the prior art as described above, the technical problem is to provide a fan motor assembly having a simple structure as compared to the prior art.

According to an aspect of the present invention for achieving the above technical problem, a fan including a plurality of blades and a fan hub to which the plurality of blades are fixed; A motor assembly installed inside the fan hub; And a frame in which a motor fixing part into which one end of the motor assembly is inserted and fixed is formed therein.

In the above aspect of the present invention, the motor fixing part is formed on the frame, so that one side of the motor is fixed while being inserted into the motor fixing part, thereby simplifying the assembly structure of the motor and the frame.

Herein, the motor fixing part may include a bottom part facing one end surface of the motor assembly; And a side wall portion protruding from an outer circumference of the bottom portion and in contact with a side surface of the motor assembly. The side wall portion is in contact with the side of the motor assembly to secure the motor.

Here, after the motor assembly is installed in the side wall portion, the molding liquid may be filled. The molding liquid may be made of an insulating material, for example, silicon or urethane, and may not only improve the bonding strength between the motor assembly and the side wall portion, but also improve the insulation performance of the motor assembly. Through this, there is no need to install a separate molding part for insulation in the motor assembly.

Here, the motor assembly comprises a rotor frame located inside the fan hub; A magnet fixedly installed inside the rotor frame; A stator assembly installed inside the magnet and including a stator core and a coil; An insulator installed between the magnet and the stator; A rotating shaft fixed to the rotor frame; And a substrate electrically connected to the coil of the stator assembly, wherein the substrate may be fixedly installed in the motor stator.

In addition, the molding material may be filled to cover the outer surface of the substrate.

According to the aspects of the present invention having the configuration as described above, since the motor is fixed by simply inserting into the motor fixing portion formed in the frame it is possible to improve the assembly.

In addition, it is possible to improve the insulation by filling the molding liquid, it is possible to replace the molding unit included in the motor it is possible to simplify and miniaturize the structure of the motor.

1 is an exploded perspective view showing an example of a conventional fan motor assembly.
Figure 2 is an exploded perspective view showing one embodiment of a fan motor assembly according to the present invention.
3 is a cross-sectional view showing the internal structure of the embodiment shown in FIG.
Figure 4 is an equivalent view of Figure 3 showing another embodiment of a fan motor assembly according to the invention.

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

2 is an exploded perspective view showing an embodiment of a fan motor assembly according to the present invention, Figure 3 is a cross-sectional view showing the internal structure of the embodiment shown in FIG. In the following description, the same components as those of the fan motor assembly illustrated in FIG. 1 are given the same reference numerals, and redundant descriptions thereof will be omitted.

2 and 3, the motor fixing part 40 is formed at the center of the frame 30. The motor fixing part 40 is connected to the rim part 32 by the spokes 36. The motor fixing part 40 has a cylindrical shape of which one side is open, and includes a side wall part 42 and a bottom part 44. The side wall portion 42 is in contact with the side surface of the motor 100 is inserted into the motor fixing portion 40 and fixed, the bottom portion 44 is in contact with the bottom surface of the motor 100. In addition, a through hole 46 into which a rotating shaft of a motor to be described later is inserted is formed at the center of the bottom 44.

Therefore, the motor 100 is fixed to the lower end is inserted into the motor fixing portion 40.

Specifically, the motor 100 includes a rotary shaft 102 fixedly coupled to the upper end of the hub 12, the rotary shaft 102 is coupled to the rotor frame 104. The rotor frame 104 forms a part of the outer shape of the motor 100 and has a cylindrical shape with one side open. The magnet 106 is mounted on the inner circumferential surface of the rotor frame 104.

The stator 130 is positioned with a predetermined gap with the magnet 106. Specifically, the stator 130 includes a stator core 132 formed by stacking a plurality of plates made of magnetic material and a coil 134 wound around the stator core 132. In addition, an insulator 136 for mutual insulation is interposed between the stator core 132 and the coil 134.

Meanwhile, an upper bearing assembly 110 and a lower bearing assembly 120 are provided on the upper and lower sides of the stator core 132, respectively, and the upper and lower bearing assemblies rotatably support the rotating shaft 102. The upper bearing assembly 110 includes an upper bracket 116 supported above the insulator 136, and the upper bracket 116 together with the stator 130 and the rotating shaft together with the lower bracket 126 described later. Will be supported.

In addition, a bearing 112 for rotatably supporting the rotating shaft 102 is installed at the upper end of the central portion of the upper bracket 116. The bearing 112 is an oilless bearing, and an oil felt 114 is provided at an outer circumferential portion of the bearing 112 so that the bearing can function smoothly. The oil felt 114 contains bearing oil to help lubrication of the bearing, so that the bearing oil can be stably supplied during the operation of the bearing 112.

On the other hand, the upper bracket 116 has a substantially T-shape on the basis of Figure 3, the vertically extending portion located in the center portion to function as a sleeve for more stably supporting the rotating shaft 102 . Here, the lower portion of the sleeve is in contact with the lower bracket 126.

The lower bracket 126 also has a T-shape as a whole, but the upper bracket and the sleeve are disposed to abut each other. The disc part corresponding to the lower part of the lower bracket 126 corresponds to the bottom part of the motor and is in contact with the bottom part 44 of the motor fixing part. In addition, a ring-shaped protrusion 128 is formed at the bottom of the lower bracket 126 to be inserted into the through hole 46.

In addition, the lower bracket 126 is provided with a bearing 122 for supporting the other end of the rotating shaft described above, and the outer peripheral portion of the bearing 122 contains bearing oil to the bearing 122 during rotation of the rotating shaft. An oil felt 124 is also provided to stably supply oil.

Meanwhile, the printed circuit board 140 is positioned between the lower bracket 126 and the rotor frame 104. The printed circuit board 140 is provided with various power supply units or control units necessary for the operation of the motor, and is fixed to the outer circumferential portion of the lower bracket 126. However, since the upper surface of the lower bracket 126 and the lower surface of the rotor frame 104 are open as shown, foreign matter such as dust or moisture may be introduced into the motor during operation.

In order to prevent this, conventionally, a molded part made of a synthetic resin that integrally connects the printed circuit board and the stator is integrated, which increases the number of manufacturing steps of the motor and complicates the motor assembly work. Therefore, in the above embodiment, the mold part is omitted, and the motor is inserted into the motor fixing part 40, and then a structure in which a material such as urethane or silicon is filled in the motor fixing part 40 is adopted. have.

The urethane layer 142 formed in this way is in contact with both the lower bracket 126 and the printed circuit board and the stator to improve the coupling strength of the motor as well as to improve the airtightness of the motor. That is, in the above embodiment, the motor is inserted into and fixed in the motor fixing part 40, and the first coupling is performed so that urethane or silicon is filled therein to complete the fastening and sealing of the motor in one process. Doing.

On the other hand, the lower bracket 126 is not necessarily limited to the illustrated form, an example in which the lower bracket 126 is integrally formed on the motor fixing part 40 may be considered. That is, in the process of manufacturing a frame including the motor fixing part, the lower bracket 126 may be processed in advance with a metal material, and then integrated with the frame through insert molding, thereby increasing the bonding strength.

In addition, an example in which the lower bracket 126 is integrally formed with the same material as the frame may be considered. This example is illustrated in FIG. 4. Referring to FIG. 4, the motor fixing part provided in the center portion of the frame includes a side wall portion 42 ′ and a bottom portion 44 ′, and the bearing 122 is disposed on the rear surface of the bottom 44 ′. Oil felt 124 is installed.

In addition, a sleeve 46 'protrudes upward from the center of the bottom portion 44', and a rotation shaft 102 is installed inside the sleeve 46 '. In addition, the printed circuit board 140 is fixedly installed on the outer side of the sleeve portion 46 ', and a urethane layer 142 is formed to the upper side thereof. Through this configuration, it is not necessary to form the lower bracket 126 separately, it is possible to simplify the structure of the motor, it is also possible to improve the bonding strength and sealing performance.

Claims (6)

A fan including a plurality of blades and a fan hub to which the plurality of blades are fixed;
A motor assembly installed inside the fan hub; And
And a frame in which a motor fixing part into which one end of the motor assembly is inserted and fixed is formed therein. The method of claim 1,
The motor fixing part is a bottom portion facing one end surface of the motor assembly; And
And a sidewall portion protruding from an outer circumference of the bottom portion and in contact with a side surface of the motor assembly. The method of claim 2,
The motor assembly is installed in the side wall portion fan-motor assembly, characterized in that the filling by the molding liquid. The method of claim 1,
The motor assembly
A rotor frame located inside the fan hub;
A magnet fixedly installed inside the rotor frame;
A stator assembly installed inside the magnet and including a stator core and a coil;
An insulator installed between the magnet and the stator;
A rotating shaft fixed to the rotor frame; And
And a substrate electrically connected to the coil of the stator assembly.
The substrate is a fan-motor assembly, characterized in that fixed to the interior of the motor fixing. The method of claim 4, wherein
And a molding material covering the outer surface of the substrate is filled in the motor fixing part. The method of claim 5,
The molding member is a fan-motor assembly, characterized in that made of urethane material.

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