KR20020044443A - An oil pumping apparatus for hermetic compressor - Google Patents

Abstract

PURPOSE: A device for pumping oil of hermetic type compressor is provided to make the device sink in oil at fixed depth. CONSTITUTION: A device includes a crank shaft(20); and a piece(30). The crank shaft has an oil passage(22) penetrating a lower end thereof. The piece is installed on the lower end of the crank shaft to move up and down in the crank shaft according to oil level and to rotates to suck up oil to the oil passage. A stopper(24) is formed on the oil passage to prevent detachment of the piece. A rotation preventive groove(26) is formed on one side of the oil passage from a lower part to the upper part to make the piece rotate integrally with the crank shaft. A fixing protrusion(34) is formed on a peripheral surface of an upper end of the piece to be hooked by the stopper. A rotation preventive protrusion is formed on one side of the upper end of the piece to be guided by the rotation preventive groove.

Description

An oil pumping apparatus for hermetic compressor

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 a cylindrical piece 5d 'with a narrow lower inlet and a wider upper outlet, and rotated integrally while being integrally rotated with oil L. It consists of the propeller 5d "which stirs | sucks and sucks it into the said oil flow path 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.

The piece 5d 'is fixed to the lower part of the crankshaft 5 and is rotated together with the crankshaft 5. Thus, the piece 5d 'is always rotated at a constant height regardless of the amount of oil L on the bottom surface of the sealed container 1.

As such, even when the oil level L is different, when the piece 5d 'is always rotated at a constant height, an input required for the rotation of the crankshaft 5 is different according to the oil L level. And the vortex sound generation problem of the oil (L) due to the rotation of the piece (5d ').

Accordingly, an object of the present invention is to solve the problems of the prior art as described above, so that the oil pumping apparatus is always locked to a certain depth in the oil.

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.

Figure 6 is an operating state showing the operation of the oil pumping apparatus of the embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

20: crankshaft 22: oil euro

24: stopper 25: protrusion

26: anti-rotation groove 30: piece

32: oil euro 34: locking jaw

36: anti-rotation protrusion 40: propeller

According to a feature of the present invention for achieving the object as described above, the present invention is installed so as to be elevated in accordance with the level of oil into the crank shaft and the crank shaft in the lower end of the crank shaft is provided with an oil passage through the bottom inside. And a piece for sucking up oil into the oil passage while being rotated.

The lower end of the oil passage provided in the crank shaft is provided with a stopper for preventing the removal of the piece, the one side of the oil passage to prevent the rotation from the bottom to the top to rotate the piece integrally with the crank shaft Is provided, along the upper outer circumferential surface of the piece is provided with a locking jaw to be caught by the stopper, is formed on one side of the upper end of the piece is provided with a rotation preventing projection which is guided along the rotation preventing groove.

The inside of the piece is further provided with a propeller for stirring the oil.

The piece is always submerged in a certain depth in the oil by the buoyancy of the oil.

According to the present invention of such a configuration, the oil pumping device for oil suction is always rotated in a state locked in a certain depth inside the oil has the advantage that a certain oil can always be supplied to the lubricating portion and the invention.

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 oil passage 22 is formed at the lower end of the crankshaft 20 through the center thereof. The oil L accumulated on the bottom surface of the airtight container 1 of the compressor is sucked up through the oil channel 22.

A stopper 24 is formed around the lower end of the oil passage 22, that is, the inner surface of the lower end of the crankshaft 20. The stopper 24 is formed to gradually narrow in diameter from the lower inner side toward the upper inner side. In addition, a protruding portion 25 is formed in the oil passage 22 from the lower side toward the upper portion thereof, and the anti-rotation groove 26 is formed along the center of the protruding portion 25. The protrusion 25 is preferably formed so as not to be connected to the stopper 24.

On the other hand, the piece 30 is installed at the lower end of the crankshaft 20 so as to be lifted by a predetermined height along the oil passage 22. An oil flow path 32 is formed inside the piece 30, and a propeller 40 for stirring the oil L to be sucked into the oil flow path 32 is press-fitted. Of course, the propeller 40 does not necessarily have to be installed inside the piece 30, and it is sufficient that the oil L may be agitated and sucked due to the characteristics of the shape of the piece 30 itself.

A locking step 34 is formed along the outer circumferential surface of the upper end of the piece 30. The locking jaw 34 is formed to gradually increase in diameter from the front end to the lower end as shown in FIG. 3, and is formed to be inclined from the top to the bottom.

On the other hand, the engaging jaw 34 of the piece 30 is disconnected from the portion corresponding to the position of the protrusion 25. And the anti-rotation projection 36 is formed in this portion. The anti-rotation protrusion 36 has a shape corresponding to the anti-rotation groove 26 and is seated in the anti-rotation groove 26 and along the anti-rotation groove 26 according to the elevation of the piece 30. The piece 30 serves to prevent relative rotation with respect to the crankshaft 20 while being lifted up and down.

The piece 30 having such a configuration has a specific gravity that the material can be immersed in the oil (L) for a predetermined depth by the buoyancy of the oil (L). There may be a variety of such materials, a typical one is a synthetic resin.

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

The piece 30 is always immersed in a predetermined depth in the oil (L) due to the nature of the material, this feature is shown well in FIG.

That is, when the water level of the oil (L) is relatively high as shown in FIG. 6a, the piece 30 is in a relatively high position. In other words, the piece 30 is positioned at a predetermined height in the oil passage 22.

And when the water level of the oil (L) is lowered as shown in b of Figure 6, the piece 30 also moves downward in the oil passage 22 by that much more protrudes to the bottom of the crankshaft (20). However, at this time, since the water level of the oil (L) is lowered by that much, the degree to which the piece 30 is locked inside the oil (L) is the same.

Finally, when the water level of the oil (L) is lowered as shown in Figure 6c, the piece 30 is further lowered so that the locking jaw 34 is caught on the stopper 24, than the piece If the 30 is lowered further down, interference with the bottom surface or other parts of the sealed container 1 may occur.

Meanwhile, as described above, the degree of protruding from the crankshaft 20 varies depending on the level of the oil L, and the propeller 40 rotates with the crankshaft 20. (L) is stirred and sucked up. At this time, the piece 30 is rotated integrally with the crank shaft 20 without the relative rotation because the anti-rotation projection 36 of the upper end is seated in the anti-rotation groove 26.

Therefore, the piece 30 is always immersed in the oil L at a constant depth regardless of the level of the oil L, so that the amount of oil L is sucked up can always be kept constant.

Meanwhile, the piece 30 is press-fitted into the oil passage 22 of the crankshaft 20. To this end, the stopper 24 and the locking step 34 are provided with a relative inclined surface.

The oil pumping device of the hermetic compressor according to the present invention as described in detail above is configured such that the oil pumping piece is always locked to a certain depth into the oil. Therefore, the depth in which the piece is immersed in oil is always constant, so that the input for the rotation of the crankshaft is always constant, and the oil supplied is also constant, thereby improving the operation reliability of the compressor.

In addition, the degree to which the piece agitates the oil is always constant, so it is possible to optimize the noise generated.

Claims (4)

A crankshaft provided with an oil flow passage through the lower end, Oil pumping device of a hermetic compressor, characterized in that the lower portion of the crank shaft is installed in accordance with the level of the oil in the crank shaft to be installed and rotated to suck the oil into the oil passage. According to claim 1, wherein the lower end of the oil passage provided in the crankshaft is provided with a stopper for preventing the removal of the piece, One side of the oil passage is provided with a rotation preventing groove for rotating the piece integrally with the crank shaft from the bottom to the top, A latching jaw that is caught by the stopper is provided along the upper outer circumferential surface of the piece, The oil pumping device of the hermetic compressor, characterized in that the anti-rotation projection is formed on one side of the top of the piece and guided along the anti-rotation groove. The oil pumping apparatus of the hermetic compressor of claim 1, wherein a propeller for stirring the oil is further provided inside the piece. 4. The oil pumping apparatus of the hermetic compressor of claim 3, wherein the piece is always submerged in oil by a buoyancy of oil.