KR100682493B1 - An oil pumping apparatus for hermetic compressor - Google Patents

Abstract

The present invention relates to an oil pumping device of a hermetic compressor. In the present invention, the oil pumping device is formed of only the piece 30. An oil passage 34 is formed in the piece body 32 of the piece 30, and an inlet portion 36 is formed at a lower portion thereof, and an outlet portion 38 is formed at an upper portion thereof. In addition, the outer circumferential surface of the piece body 32 is intermittently formed with channels 40, 42 and 44 inclined so as to be substantially spiral. The inclined guide surfaces 50, 52, and 54 are intermittently formed in the inside of the piece body 32 by the channels 40, 42, and 44, respectively. In the present invention, since the oil pumping device is formed by forming the channels 40, 42, and 44 in the piece 30, the configuration thereof is simple, there is no failure, and operation reliability is kept constant. In addition, since only one component is formed, the manufacturing cost is advantageous.

Hermetic compressors, oil pumping

Description

An oil pumping apparatus for hermetic compressor

1 is a cross-sectional view showing the internal configuration of a typical hermetic compressor.

Figure 2a is a cross-sectional view showing the configuration of the oil pumping device of the hermetic compressor according to the prior art.

Figure 2b is a plan view showing the configuration of the oil pumping device of the hermetic compressor according to the prior art.

Figure 3 is a cross-sectional view showing the configuration of a preferred embodiment of the oil pumping device of the hermetic compressor according to the present invention.

4 is a front view seen from the arrow A direction of FIG.

5 is a cross-sectional view taken along line BB ′ of FIG. 3.

Explanation of symbols on the main parts of the drawings

30: piece 32: piece body

34: oil path 36: inlet

38: outlet part 40, 42, 44: 1st, 2nd, 3rd channel

50, 52, 54: 1st, 2nd, 3rd slope

The present invention relates to a hermetic compressor, and more particularly, to an oil pumping device of a hermetic compressor for drawing up oil for lubrication and cooling inside the hermetic compressor through a crankshaft.

Figure 1 shows the internal configuration of a hermetic compressor of the connecting rod method according to the prior art. According to this, a sealed space is provided inside the sealed container 1 which consists of the upper container 1t and the lower container 1b, and the frame 2 is provided in the said space. The frame 2 is fixed with a stator 3 for rotating the crankshaft 5 by electromagnetic interaction with the rotor 4, which will be described below. It is supported inside the sealed container 1 by 2S).

The crankshaft 5 is provided through the center of the frame 2. The crankshaft 5 is integrally provided with a rotor 4 and rotated together with the crankshaft 5 by electromagnetic interaction with the stator 3.

An eccentric pin 5b is formed on the upper end of the crankshaft 5 so as to be eccentric with respect to the rotation center of the crankshaft 5. And the counterweight (5c) is formed on the opposite side formed with the eccentric pin (5b). At the lower end of the crankshaft 5, a pumping mechanism 5d for sucking up the oil L on the bottom of the lower container 1b into the oil flow passage 5a formed on the crankshaft 5 is provided. .

As shown in FIG. 2, the pumping mechanism is inserted into the cylindrical piece 5d 'with a narrow lower inlet and a wider upper outlet, and rotated integrally while being integrated into the oil 5L'. ) And a propeller (5d ") that sucks the oil into the oil passage (5a).

On the other hand, the cylinder 6 provided with the compression chamber 6 'inside is integrally molded with the said frame 2. As shown in FIG. A piston 7 is provided in the compression chamber 6 ', which is connected to the eccentric pin 5b of the crankshaft 5 by a connecting rod 8. The eccentric pin 5b is connected to the crankshaft connecting portion 8a of the connecting rod 8, and the piston connecting portion 8b of the piston 7 and the connecting rod 8 is connected by a piston pin 7 ′. Connected.

In addition, a valve assembly 9 is installed at the front end of the cylinder 6 to control the flow of the working fluid flowing into and out of the compression chamber 6 '. The head assembly 10 is mounted to the valve assembly 9, and a suction muffler 11 is installed together with the head cover 10. The suction muffler 11 communicates with the compression chamber 6 ′ inside the cylinder 6 via the valve assembly 9.

In the drawings, reference numeral 12 denotes a suction pipe for delivering the working fluid to the inside of the sealed container 1, and 13 denotes a discharge pipe for discharging the compressed working fluid to the outside of the compressor.

In the prior art having the configuration as described above, the oil L on the bottom surface of the hermetic container 1 is driven by the pumping mechanism 5d according to the rotation of the crankshaft 5 when the compressor is driven. It is absorbed through (5a). The oil L sucked up through the oil passage 5a is ejected into the upper portion of the sealed container 1 through the eccentric portion 5b of the upper part of the crankshaft 5 to serve as a lubrication role in the friction part and heat. It also serves to cool the generating area.

However, the prior art as described above has the following problems.

First, the propeller 5d "is formed of an elastic metal plate and is pressed into the piece 5d '. Therefore, the inside of the piece 5d' is scratched in the process of pressing the propeller 5d". The iron bar is generated, and if the iron bar is severe, the metal bar is dropped therein. Such metal scrap or metal pieces are flowed along with the oil L along the oil channel 5a by the driving of the compressor, and are then transferred to the relatively moving part while being rubbed. The metal fragments transferred to such a site cause wear to the relatively moving part while rubbing, and in severe cases, the operation of this part is impossible.

In addition, since the propeller 5d "is press-fitted into the piece 5d ', it may not be properly positioned at a predetermined position at the time of design, and there is also a problem that the suction of oil L is not made properly. .

Therefore, an object of the present invention is to solve the problems of the prior art as described above, to ensure the product uniformity of the oil pumping device to ensure the performance as designed.

Another object of the present invention is to simplify the construction of the oil pumping device.

According to a feature of the present invention for achieving the object as described above, the present invention provides a plurality of channels formed to be recessed inwardly inclined along the outer circumferential surface of the piece body and the oil flow path is formed therein; And an inclined guide surface protruding obliquely by the formation of the channel on the inner surface of the piece body corresponding to the channel, wherein the plurality of channels are inclined along the outer circumferential surface of the piece body.

A total of three channels are provided. The first channel extends inclined to a position rotated about 180 degrees along the outer circumferential surface of the piece body starting from the inlet of the oil channel, and the second channel is the end position of the first channel. Is formed to be inclined to a position rotated about 180 degrees along the outer peripheral surface of the piece body from the position moved upwards in the third channel, the third channel is 180 along the outer peripheral surface of the piece body in the position moved upwards from the end position of the second channel It is extended inclined to the position rotated about degrees.

According to the present invention of such a configuration there is an advantage that the configuration of the oil pumping device is made simple and can exhibit a uniform oil pumping performance as designed.

Hereinafter, a preferred embodiment of an oil pumping apparatus of a hermetic compressor according to the present invention as described above will be described in detail with reference to the accompanying drawings.

3 to 5, the piece 30 constitutes the oil pumping apparatus of the embodiment of the present invention. The piece body 32 of the piece 30 is formed of a metal material and an oil passage 34 is formed therein. In addition, an inlet portion 36 through which the oil is sucked into the oil passage 34 is formed at the lower end of the piece body 32, and the oil passing through the oil passage 34 is cranked at the upper end of the piece body 32. The outlet part 38 which discharges into the oil flow path inside a shaft is formed.

Along the outer circumferential surface of the piece body 32 as described above, first, second and third channels 40, 42 and 44 are formed. The channels 40, 42, and 44 are formed to be inclined in a substantially spiral direction by forming the outer circumferential surface of the piece body 52 to be concave inward. The channels 40, 42 and 44 are not connected to each other but are formed separately.

In this case, the first channel 40 extends inclined to a position rotated 180 degrees along the outer circumferential surface of the piece body 32 starting from the inlet portion 36. The second channel 42 is formed to be inclinedly extended as shown by a dotted line in FIG. 4 at an upper position away from the position where the first channel 40 ends. The second channel 42 is also formed in a spirally rotated position by about 180 degrees. In addition, the third channel 44 is inclinedly extended to a position rotated approximately 180 degrees as indicated by the solid line in FIG. 4 at an upper position away from the end of the second channel 42 by a predetermined distance.

Here, the channels 40, 42, 44 do not necessarily have to be rotated by 180 degrees, and the centrifugal force is passed through the flow path formed inside the piece body 32 by the channels 40, 42, 44. If it can be guided to the top while rotating by the angle may be less than that.

Meanwhile, the channels 40, 42, and 44 are formed to form first, second, and third inclined guide surfaces 50, 52, and 54, respectively, in the piece body 32. The inclined guide surfaces 50, 52, and 54 are formed in a separate spiral like the channels 40, 42, and 44, respectively. 5, the first and third inclined guide surfaces 50 and 54 are shown.

Hereinafter will be described the operation of the oil pumping device of the hermetic compressor according to the present invention having the configuration as described above.

The piece 30 of the embodiment of the present invention is formed by forming the channel 40, 42, 44 to be recessed inwardly so as to form a substantially spiral shape on the outer circumferential surface of the piece body 32 of the substantially hollow cylindrical body. By doing so, the oil channel 34 formed inside the piece body 30 forms a substantially spiral space.

In particular, by forming the channels 40, 42, 44, the inclined guide surface (50, 52, 54) is formed inside the piece body (30) to rotate the oil along the inclined guide surface (50, 52, 54) As it is guided by centrifugal force, it rises.

In more detail, when the piece 30 is rotated by the rotation of the crankshaft, the front end of the piece body 32 is rotated in the oil accumulated in the bottom of the sealed space. As the piece body 32 rotates as described above, oil begins to be sucked up through the inlet 36.

This is because the start of the oil channel 34 corresponding to the inside of the inlet portion 36 protrudes inward by the first channel 40, so that the start of the oil channel 34 is not circular. Therefore, when the piece 30 is rotated, the oil is agitated by the inlet portion 36 and centrifugal force acts on the oil.

The oil moved along the wall surface of the oil channel 34 by the centrifugal force is moved while being guided along the first inclined guide surface 50. The oil started to move in this way is continuously guided along the second inclined guide surface 52 and the third inclined guide surface 54 to move to the top of the piece (30).

Of course, the oil moving along the oil channel 34 does not necessarily flow along the inclined guide surfaces 50, 52, 54, but also moves along the inside of the oil channel 34. In this way, the oil moved to the upper portion of the oil passage 34 is discharged into the oil passage inside the crankshaft through the outlet 38.

Oil pumping device of the hermetic compressor according to the present invention as described in detail above is formed to be recessed inwardly inclined so that the channels are approximately spiral in the piece body can be obtained the effect that the configuration is simple and easy to manufacture.

And since there are no parts to be assembled and only a channel is formed, a failure does not occur during use, so that durability and operation reliability are always maintained.

Claims (2)

A piece body in which an oil flow path is formed, A plurality of channels formed to be recessed inwardly inclined along the outer circumferential surface of the piece body; It comprises an inclined guide surface protruding obliquely by the formation of the channel on the inner surface of the piece body corresponding to the channel, The channel is an oil pump of the hermetic compressor, characterized in that a plurality of the inclined along the outer peripheral surface of the piece body is formed separately. The method of claim 1, wherein the channel has a total of three, The first channel extends inclined to a position rotated about 180 degrees along the outer circumferential surface of the piece body starting from the inlet of the oil channel, The second channel extends inclinedly to a position rotated about 180 degrees along the outer circumferential surface of the piece body in a position moved upward from the end of the first channel, The third channel is the oil pumping device of the hermetic compressor characterized in that the inclined extension to the position rotated about 180 degrees along the outer circumferential surface of the piece body from the position moved upward from the end of the second channel.

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