KR100842382B1 - Water resist structure for pan-motor to refrigerator - Google Patents

Abstract

The present invention relates to a moisture permeation prevention structure of the fan motor for a refrigerator. In the present invention, the PCB for controlling the motor is mounted in the housing 100 of the fan motor, the stator core 122 wound around the coil 124 on the upper end of the PCB, and one end of the fan 124 and the other end. The pin 140 is connected to the PCB is assembled. The waterproof layer 160 molded with urethane is stacked on the upper surface of the PCB and a part of the fin 140 to prevent a short circuit due to moisture. To this end, a plurality of inflow holes 174 for injecting urethane from the outside into the housing 100 are perforated on the bottom surface of the housing 100, and then, after the assembly of the housing 100 is completed, in a simple manner. Urethane can be applied. According to the present invention in which the housing 100 is molded of plastic and the bottom surface of the housing 100, on which the PCB is installed, is molded with urethane, moisture permeation inside the fan motor is minimized. Even if there is a penetration, since the PCB is coated by the waterproof layer, a short circuit due to moisture does not occur.

Refrigerator, fan motor, stator core, coil, urethane

Description

{Water resist structure for pan-motor to refrigerator}

1 is a longitudinal cross-sectional view showing a main portion of a conventional intercooled refrigerator according to the prior art cutaway.

Figure 2 is a perspective view showing a fan motor according to the prior art.

Figure 3 is an exploded perspective view showing a preferred embodiment of the moisture penetration prevention structure of the urethane molded fan motor according to the present invention.

** Description of the symbols for the main parts of the drawings **

100: housing 110: cover

120: stator 122: stator core

124: coil 130: rotor

132: axis of rotation 134: fan

140: pin 150: IC chip

160: waterproof layer 170: coupling portion

172: coupling hole 174: inlet hole

The present invention relates to a fan motor for a refrigerator, and more particularly, to a moisture permeation prevention structure of a fan motor for a refrigerator in which moisture permeation can be suppressed to various electric elements inside the fan motor installed and used in a humid heat exchange chamber. It is about.

FIG. 1 is a vertical cross-sectional view showing a configuration of a conventional intercooled refrigerator according to the prior art, and FIG. 2 is a perspective view illustrating a configuration of a fan motor provided in the intercooled refrigerator according to the prior art.

In general, the conventional intercooled refrigerator is formed so that the freezer compartment 3 and the refrigerating compartment 5 for storing frozen and refrigerated foods and the like, respectively, in the main body 1 are partitioned. The freezer compartment 3 and the refrigerating compartment 5 are selectively opened and closed by doors 9 and 11, respectively.

A heat exchange chamber 3 'for heat exchange is installed at the rear of the freezing chamber 3, and a fan motor 13 driven to circulate cold air is mounted at an upper portion of the heat exchange chamber 3', and a fan motor 13 The fan 15 that rotates by receiving the driving force of the fan motor 13 is installed on the rotary shaft 13 '. An evaporator 17 through which heat exchange is performed is installed under the heat exchange chamber 3 '.

Although not shown in the drawings, the fan motor 13 is provided with a coil driving the fan 15 and a printed circuit board controlling the same (hereinafter, referred to as a PCB).

However, the above-described motors of the prior art have the following problems.

Due to the heat exchange effect of the evaporator 17, the inside of the heat exchange chamber 3 'as well as the periphery of the fan motor 13 are kept at a low temperature. Meanwhile, the heat-exchanged air circulates through the heat exchange chamber 3 'and the refrigerating chamber 5 by the rotation of the fan 15, and the air inside the heat exchange chamber 3' contains a lot of moisture.

Therefore, while the air in the refrigerating chamber 5 containing a large amount of water comes into contact with the surface of the fan motor 13 in a low temperature state, the moisture contained in the air is condensed to form on the surface of the fan motor 13. Therefore, the possibility of moisture infiltrating into the coil or PCB element wound on the fan motor 13 increases, which may cause damage to the fan motor 13.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, the object of the present invention is to prevent the moisture that penetrates into the housing to access the PCB, such as insulation is required, to protect the PCB, etc. To provide a moisture permeation prevention structure of the fan motor for the refrigerator.

According to a feature of the present invention for achieving the above object, the present invention includes a housing having a predetermined space therein; A motor assembly installed inside the housing to provide rotational force; A PCB installed in the housing adjacent to the motor assembly and connected to the motor assembly by a connecting means to control the motor assembly; And formed from the bottom surface of the housing up to about half the height of the motor assembly, at least the connecting means and the upper surface of the PCB is configured to include a waterproof layer completely applied.

The housing is injection molded from plastic.

The waterproof layer is formed of a urethane material.

According to the moisture permeation prevention structure of the fan motor for a refrigerator according to the present invention having such a configuration, by molding the PCB with urethane, there is an insulating effect that can prevent the penetration of moisture.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the moisture permeable waterproof structure of the fan motor for a refrigerator according to the present invention having the configuration as described above will be described in detail.

Figure 3 is an exploded perspective view of a preferred embodiment of the moisture permeation prevention structure of the fan motor molded with a urethane according to the present invention. According to this, the cover 110 is installed on the upper portion of the housing 100 for embedding the motor. The housing 100 and the cover 110 are formed of a plastic that is not easily penetrated from the outside.

The housing 100 includes a first region (I) in which a motor including a stator 120, a rotor 130, and a rotating shaft 132 is installed, and a second region (II) in which a control part of the motor is installed. It is composed of

The stator 120 that does not rotate is installed inside the housing 100. The stator 120 includes a stator core 122 and a coil 124 wound around the stator core 122.

The rotatable rotor 130 is installed inside the stator 120. The rotating shaft 132 is press-fitted inside the rotor 130. The rotating shaft 132 is formed to have a predetermined length and is coupled so that an end portion comes out of the front surface of the cover 110. The fan 134 is coupled to an end portion coming out of the front of the cover 110.

On the other hand, six of the stator cores 122 adjacent to the second region II of the stator cores 122 are provided with fins 140. The pin serves to fix the stator to the housing, wherein the pin 140 is electrically connected to the coil 124 wound on the stator core 122 and a PCB (not shown) to be described later. You may.

One side of the lower end of the housing 100, as shown in the dotted line in Figure 3, the PCB is installed, the IC chip 150 for controlling the driving of the motor is installed on the upper surface of the PCB. On the other hand, the PCB is not only installed in the second region (II), but is also partially installed in the pin 140 provided outside the stator core 122.

The PCB is connected to the IC chip 150 and the PCB is connected to the pin 140 so that a short circuit caused by moisture causes a failure, so that the PCB is prevented from short circuit due to moisture. The waterproof layer 160 is formed on the bottom of the housing 100 that is installed.

That is, down from the bottom surface of the housing 100, up to the middle height of the stator core 122 is formed. In addition, the urethane is molded to the entire area of the second region (II) including the PCB and the IC chip 150 and a part of the first region (I) where the stator core 122 is not installed. Accordingly, it can be seen that at least the waterproof layer 160 is applied to the PCB, the IC chip 150 and the pin 140 where the insulation is required.

A coupling part 170 is formed to be coupled to the cover 110 by surrounding the edge of the housing 100, and the coupling part 170 protrudes to a predetermined height to surround the regions I and II. It is. At least two coupling holes 172 are formed at one side of the coupling part 170 such that the housing 100 may be fastened by the cover 110 and a screw (not shown). At least one inlet hole 174 is formed at the bottom of the second region II of the housing 100 so that urethane can be injected from below.

According to the fan motor as described above, when a current is applied to the coil 124 of the stator 120, a rotational force is generated in the rotor 130, and the rotor 130 and the rotary shaft press-fitted thereto by the rotational force 132 is rotated, thereby causing the fan 134 coupled to the rotating shaft 132 to rotate. Reference numeral 152 in the drawing is a power connection device.

Referring to the waterproofing process of the motor molded with a urethane having the same configuration as follows.

First, the housing 100 and the cover 110 forming the external structure are injection-molded with plastic, as produced by injection molding a raw material such as a synthetic resin in a predetermined mold. PCB is installed in a part of the first region (I) where the second region (II) and the pin 140 are installed. The IC chip 150 is installed on the PCB to complete the assembly of the second region II.

Separately, the coil 124 is wound around the stator core 122 to complete the stator assembly, and then assembled to the first region I of the housing 100. The motor is completed by screwing the housing 100 and the cover 110 together.

Next, when urethane is injected from below through the inlet hole 174 formed in the second region (II), the injected urethane is applied horizontally to the bottom surface of the housing 100. After urethane is applied to the upper surface of the PCB in the second region (II) to a predetermined thickness, when urethane flows to the stator core 122 in the first region (I), it is wound around the stator core 122 Urethane is continuously injected until about half of the coil 124 is locked.

When the urethane is injected through the inlet hole 174 in this way, as shown in the drawing, the stator core 122 in which the fins 140 are installed in all of the first region I and the second region II is shown. Since the waterproof layer 160 is formed on a part of the substrate, the waterproof component 160 is insulated from the electronic components.

Therefore, after molding a part of the PCB and the stator core 122 with urethane, all functions will operate normally even if the humidity in the refrigerator increases.

As described above, it can be seen that the present invention has a technical concept of waterproofing by injecting urethane from the lower part of the housing and molding the parts requiring insulation such as PCB. Within the scope of the basic technical idea of the present invention, various changes and modifications can be made by those skilled in the art.

As described above, according to the configuration of the present invention, the effect of minimizing the water penetration into the housing by the production of the plastic material is expected. In addition, since part of the upper surface of the PCB and the stator core are molded with urethane, even if there is intermittent moisture penetration into the inside of the housing, an insulation effect is expected to operate the fan motor normally, thereby improving product safety and reliability. It can be secured.

Claims (3)

A housing provided with a predetermined space therein; A motor assembly installed inside the housing to provide rotational force; A PCB installed in the housing adjacent to the motor assembly and connected to the motor assembly by a connecting means to control the motor assembly; And Moisture of the fan motor for the refrigerator, characterized in that formed from the bottom of the housing up to about half the height of the motor assembly, at least the connecting means and the upper surface of the PCB comprises a waterproof layer completely applied Penetration prevention structure. The structure of claim 1, wherein the housing is injection molded of plastic. The moisture permeation prevention structure of a fan motor for a refrigerator according to claim 1 or 2, wherein the waterproof layer is made of urethane.

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