KR100595921B1 - Insulation structure of a posistor and hermetic terminal in a compressor - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to the insulation of a posistor and a terminal applied to a compressor of a refrigerator. In the related art, when the main / sub terminal pin is inserted into a terminal portion of a posi- tion body portion having a plurality of terminals, the terminal As the surface of the and the contactor are in close contact with each other and the surrounding insulation of the terminal cannot be provided, when the refrigerator is used in a humid place, the main terminal pin and the sub terminal pin are insulated from the main terminal pin and the sub terminal pin by the capillary phenomenon of the compressor. As the insulation between the sub terminal pins and the OLP terminal pins is more likely to be destroyed, a closed end that greatly degrades the performance of the overall compressor is followed.

Accordingly, the present invention improves the shape of the positive electrode terminal portion, and thus the insulation distance between the main terminal pin and the sub terminal pin and the insulation between the main / sub terminal pin and the OLP terminal pin when the terminal portion and the terminal of the position keep in close contact with each other. Insulation structure of the terminal and the transistor of the compressor which provides the distance to prevent the performance deterioration of the compressor due to insulation breakdown as well as to prevent the breakdown of the insulation even in the small moisture by the capillary phenomenon. To provide.

Compressor, Terminal, Positioner, Insulation Structure, Terminal, Step Groove, Step

Description

Insulation structure of a posistor and hermetic terminal in a compressor             

1 is an exploded view showing a coupling state of a conventionally applied position and the terminal.

Figure 2 is an exploded view showing a coupling state of the position and the terminal as a first embodiment of the present invention.

3 is a detailed cross-sectional view of portion A of FIG. 2 as a first embodiment of the present invention;

Figure 4 is an exploded view showing a coupling state of the terminal and the terminal in a second embodiment of the present invention.

5 is a detailed cross-sectional view of portion B of FIG. 4 as a second embodiment of the present invention;

* Explanation of symbols on the main parts of the drawings *

One ; Position 2; Position of the body

3; Terminal part 4; terminal

4a; Main terminal pin 4b; Sub terminal pin

5; OLP terminal pin 10; Step groove

20; Stepped stones

The present invention relates to the insulation of a posistor and a terminal applied to a compressor of a refrigerator, and in particular, it is possible to secure insulation between a terminal and a terminal formed in the pore by improving the shape of the terminal portion of the posistor. It relates to a terminal and a positive insulation structure of the compressor.

As is well known, the compressor of the refrigerator has a structure in which power is applied by connecting a positive electrode to a terminal and a terminal for maintaining airtightness.

Such a conventional positioner 1 has a structure in which a plurality of embedded terminal portions 3 are formed on one side of the positioner body portion 2 as shown in FIG. 1,

As shown in FIG. 1, the terminal 4 has main / sub terminal pins 4a and 4b inserted into terminal portions 3 formed on one side of the body portion 2, and an OLP terminal (not shown). And one OLP terminal pin 5 for connection with the same).

Here, the main terminal pin 4a and the OLP terminal pin 5 have a structure connected to a stator cluster (not shown).

Therefore, in the related art, when the positioner 1 and the terminal 4 are connected, the OLP terminal pin 5 and the main terminal pin 4a formed on the terminal 4 after the positioner 1 operates are stators. Power is supplied to the compressor through the cluster.

However, in the connection of the conventional transistor 1 and the terminal 4, the main / sub terminal pin 4a formed in the terminal 4 by the plurality of embedded terminal portions 3 formed in the positioner 1. As the 4b is inserted, the surfaces of the terminal 4 and the transistor 1 are kept in close contact with each other. In this case, the insulation distance and the main / sub terminal of the main terminal pin 4a and the sub terminal pin 4b are maintained. Insulation distance between the pins 4a and 4b and the OLP terminal pin 5 is not secured properly.

That is, when the main / sub terminal pins 4a and 4b are inserted into the terminal portion 3 of the plural body body 2, the surfaces of the terminal 4 and the resistor 1 are in contact with each other. In the case where the refrigerator is used in a humid place, the insulation of the main terminal pin 4a and the sub terminal pin 4b and the main terminal pin 4b may occur due to the capillary phenomenon of the compressor. The insulation between the sub-terminal pins 4a and 4b and the OLP terminal pins 5 is more likely to be destroyed, resulting in a significant decrease in the performance of the overall compressor.

Therefore, the present invention for solving the conventional problems as described above, while improving the shape of the position of the terminal terminal portion, the insulation distance between the main terminal pin and the sub terminal pin and the main terminal pin when the terminal and the terminal of the position to keep in close contact with each other It provides the insulation distance between the sub terminal pin and the OLP terminal pin to prevent the performance degradation of the compressor due to insulation breakdown as well as to prevent the insulation from being destroyed by the small amount of moisture due to the capillary phenomenon. The purpose is to prevent it.

Terminal and the insulation structure of the present invention compressor for achieving the above object,

One OLP terminal for connecting a main / sub terminal pin and an OLP terminal inserted into a terminal formed with a plurality of embedded terminal portions on one side of the body portion of the position, and a terminal portion formed on one side of the body portion of the positioner. In a compressor to which power is applied by a combination of terminals having pins together,

When the surface of the terminal is in close contact with the terminal portion of the transistor is characterized in that the step portion is formed around the terminal portion to ensure the insulation of the terminal portion and the terminal.

The present invention by the above configuration, when the terminal pin of the terminal is inserted into the terminal portion of the position, when the surface of the terminal is in close contact with the terminal portion to enable insulation through the stepped portion formed around the terminal portion, the small moisture by the capillary phenomenon In order to prevent the breakdown of the insulation in advance to improve the overall performance of the compressor is characterized by.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

For reference, the drawings referred to below will be described with the same reference numerals for the same parts as in the prior art for convenience of description.

FIG. 2 is an exploded view showing a coupling state between a positioner and a terminal as a first embodiment of the present invention, and FIG. 3 is a detailed cross-sectional view of part A of FIG. 2 as a first embodiment of the present invention.

As shown in FIGS. 2 and 3, a positioner 1 having a plurality of embedded terminal portions 3 formed on one side of the positioner body portion 2, and one side surface of the positioner body portion 2. Consists of a terminal (4) formed together with one OLP terminal pin (5) for connecting the main / sub terminal pin (4a) (4b) and the OLP terminal (not shown) inserted into the terminal portion (3) formed in the But

A stepped groove 10 having a predetermined depth is formed around the embedded terminal portion 3 of the transistor 1.

Then, the step groove 10 is the main / sub terminal pins (4a), 4b of the terminal 4 is inserted into the terminal portion (3) of the transistor 1, the surface of the terminal 4 is the terminal portion (3) Although closely contacted, the insulation distance between the main terminal pin 4a and the sub terminal pin 4b as well as the insulation distance between the main / sub terminal pins 4a and 4b and the OLP terminal pin 5 can be sufficiently secured.

Therefore, even if there is a small amount of moisture due to the capillary phenomenon of the compressor, the insulation distance between the terminal portion 3 and the terminal 4 of the transistor 1 is reliably provided by the step groove 10 due to the secured insulation distance. As a result, the overall performance of the compressor can be prevented.

Here, the stepped groove 10 may be formed in a circular or square shape around the terminal portion 3, the depth is preferably formed to be 0.5mm.

4 and 5 are second exemplary embodiments of the present invention. FIG. 4 is an exploded view illustrating a coupling state between a positioner and a terminal, and FIG. 5 is a detailed cross-sectional view of portion B of FIG. 4.

For reference, the drawings referred to below will be described with the same reference numerals for the same parts as in the prior art for convenience of description.

As shown in FIGS. 4 and 5, the positioner 1 having a plurality of embedded terminal portions 3 formed on one side of the positioner body portion 2, and one side surface of the positioner body portion 2. Consists of a terminal (4) formed together with one OLP terminal pin (5) for connecting the main / sub terminal pin (4a) (4b) and the OLP terminal (not shown) inserted into the terminal portion (3) formed in the But

A stepped protrusion 20 having a predetermined height is formed around the embedded terminal 3 of the transistor 1.

Then, the stepped protrusion 20 has the main / sub terminal pins 4a and 4b of the terminal 4 inserted into the terminal portion 3 of the transistor 1 and the surface of the terminal 4 is stepped. Even if it is in close contact with (20), the insulation distance between the main terminal pin 4a and the sub terminal pin 4b as well as the main / sub terminal pins 4a and 4b and the OLP terminal pin 5 can be sufficiently secured. Will be.

Therefore, even if there is a small amount of moisture due to the capillary phenomenon of the compressor, the insulation is ensured by the stepped protrusion 20 between the terminal portion 3 and the terminal 4 of the positioner 1 due to the secured insulation distance. As it is provided, the overall performance of the compressor can be prevented.

Here, the stepped protrusion 20 may be formed to protrude in a round or square shape around the terminal portion 3, the height is preferably formed to be 0.5mm.

As described above, according to the present invention, the insulation distance between the main terminal pin 4a and the sub terminal pin 4b and the main / sub terminal pin 4a ( 4b) and the stepped groove 10 or the stepped protrusion 20 are formed around the terminal portion 3 so as to provide an insulated distance between the OLP terminal pin 5 and the compressor due to insulation breakdown as in the prior art. In addition to preventing the degradation of the performance of the capillary phenomenon, even the small amount of moisture in the insulation breakdown to provide the effect of preventing.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes are within the scope of the claims.

Claims (5)

One OLP terminal pin for connecting a main / sub terminal pin and an OLP terminal inserted into a terminal having a plurality of embedded terminal portions on one side of the body portion and inserted into a terminal portion formed on one side of the body portion of the positioner. In a compressor that is powered by a combination of terminals formed together, And a stepped portion formed around the terminal portion so as to ensure insulation between the terminal portion and the terminal when the surface of the terminal is in close contact with the terminal portion of the transistor. The insulating structure of claim 1, wherein the stepped portion is formed of a circular stepped groove having a predetermined depth around the recessed terminal portion. The compressor and terminal insulation structure of claim 2, wherein the stepped groove is formed into a quadrangle having a depth of 0.5 mm. 2. The insulating structure of claim 1, wherein the stepped portion is formed of a circular stepped portion having a predetermined height around the recessed terminal portion. [5] The compressor and terminal insulation structure of claim 4, wherein the stepped protrusion is formed in a quadrangle having a height of 0.5 mm.

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