KR100229669B1 - Oil pumping apparatus for a compressor - Google Patents

Abstract

An oil pumping apparatus for a compressor is disclosed. The oil pumping apparatus of the disclosed compressor includes a rotor rotating by a magnetic field generated by a stator, and a crank shaft formed at the center of the rotor and lubricating a friction part by pumping oil contained in a lower case at its lower end when the rotor is rotated. In the compressor, a crank shaft formed with a spiral oil groove in the outer periphery from the lower end to the upper end so as to pump the oil contained in the lower case when the rotor rotates, and is installed in the lower portion of the crank shaft Characterized in that composed of a guide means for guiding the oil flowing into the bottom of the.

Description

Compressor oil pumping device

The present invention relates to an oil pumping device of a compressor for supplying oil to a friction part in the compressor at startup of the compressor.

In general, the compressor is a part of the components constituting the refrigeration cycle, usually by compressing the low-temperature, low-pressure refrigerant in the gas state through the evaporator, and then transfer the high-temperature, high-pressure refrigerant in the gas state to the condenser However, since these compressors have to generate a lot of force in a short time, the friction between machines in the compressor is generated. Therefore, an oil pumping device is provided to circulate oil for reducing friction between machines when the compressor starts up.

The oil pumping apparatus of the conventional compressor is shown in FIG. 1. According to FIG. 1, the inside of the compressor 1 has a structure in which the upper and lower cases are coupled to each other and sealed, and the lower case 2 has a predetermined amount. The oil 4 is contained, and a stator support 6 for fixing the stator 5 by a fastening bolt is provided.

The rotor 8 which is rotated by the magnetic field generated by the stator 5 is inserted inside the stator 5, and the crankshaft 10 having the oil passage 9 formed therein in the center of the rotor 8. Is combined. In addition, the upper part of the crankshaft 10 is rotatably inserted into the sliding bearing 11, the oil (4) supplied through the oil passage (9) on the outer periphery of the inner surface of the sliding bearing (11) An oil passage 9 having a predetermined length is formed so as to move upwardly through.

The crank pin 12 provided at the upper end of the crankshaft 10 is rotatably inserted into the large diameter portion of the connecting rod 13, and the small diameter portion of the connecting rod 13 reciprocates the piston 14. ) Is rotatably coupled.

On the other hand, the oil passage (9) formed inside the crankshaft 10 to guide the oil (4) contained in the lower case (2) to be supplied to the oil passage (9) as shown in FIG. The connecting pipe 15 is fixed. In addition, a propeller-type rotating plate 16 having a twisted body is inserted into the connecting tube 15, and an elastic support piece 17 is formed at an upper end of the rotating plate 16 so as to be symmetrical with each other, and a central portion is cut at a lower end thereof. It has a structure in which the cut support piece 18 is formed.

In the oil pumping apparatus of the conventional compressor having such a configuration, when the oil 4 contained in the lower case 2 is pumped into the oil passage 9 formed on the crankshaft 10, the coupling state of the rotating plate 16 is shown. First, the upper part of the connecting pipe 15 is press-fitted into the lower part of the crank shaft 10 of the rotor 8, and then the elastic support piece 17 formed at the upper end of the rotating plate 15 is positioned below the connecting pipe 15. Let's do it. Then, while pressing the elastic support piece 17 toward the smaller diameter is inserted into the interior of the connecting pipe (15). That is, the elastic support piece 17 is in close contact with the inside of the connection pipe 15 by its elastic force as the elastic support piece 17 is inserted into the connection pipe 15 in the pressed state. The rotary plate 16 is completely coupled to the connecting pipe 15 is completed at the same time the cutting support piece 18 formed on the lower end of the rotating plate 16 is in close contact with the inner diameter of the connecting pipe 15.

However, in order for a worker to couple the rotating plate 16 as described above, the connecting pipe 15 coupled to the crankshaft 10 and the rotating plate 16 inserted into the connecting pipe 15 must be sequentially operated. As a result, the work process is increased and the workability is deteriorated. As a result, the shape of the rotating plate 16 is complicated, so that it takes not only a long time for processing but also raises the production cost.

Accordingly, the technical problem to be achieved by the present invention, that is, the object of the present invention is to solve the problems as described above, by simplifying the configuration for pumping oil to improve the work process and productivity as well as the compressor It is to provide an oil pumping device of a compressor that can improve the performance.

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

Figure 2 is a sectional view of the main part showing the configuration of an oil pumping device of a conventional compressor.

Figure 3 is a view showing a state in which the oil guide cap is coupled to the lower crankshaft of the compressor according to the present invention.

Figure 4 is a cross-sectional view showing the overall configuration of the oil pumping device of the compressor according to the present invention.

Explanation of symbols on the main parts of the drawings

One ; Compressor 2; Lower case

4 ; Oil 20; Stator

22; Rotor 30; Oil groove

40; Crankshaft 42; Home

50; Guide cap 52; Jamming

The object of the present invention as described above is to rotate the rotor by the magnetic field generated by the stator, and is disposed in the center of the rotor to lubricate the friction part by pumping the oil contained in the lower case at its lower end during the rotation of the rotor A crank shaft compressor comprising: a crank shaft having a spiral oil groove formed on an outer circumferential surface thereof from the bottom to the top thereof so that oil contained in a lower case can be pumped upward when the rotor is rotated, and a lower portion of the crank shaft. It is characterized in that it is provided with a guide means for guiding the oil flowing into the lower end of the oil groove.

Here, the crank shaft has a plurality of engaging grooves are formed in the outer peripheral surface of the predetermined point from the lower end to the upper direction, the guide means has a plurality of locking projections protruding toward the radial center on the inner peripheral surface of the upper, the crank A space is formed between the outer surface of the lower end of the shaft and the inner circumferential surface of the guide means opposite to the outer circumferential surface, and has a guide cap which gradually decreases in diameter toward the lower end of the crank shaft.

According to the present invention, an oil groove having a spiral is formed on the outer circumferential surface of the crankshaft from the bottom to the top, and a guide cap of the crankshaft can be smoothly pumped upward along the oil groove in the lower case of the compressor. It can be easily coupled to the lower part to lubricate the friction part in the compressor during rotation of the rotor and the crankshaft by the start of the compressor, and also to improve the workability and productivity as the configuration of the oil pumping part is simplified. .

Thus, the preferred embodiment of the present invention for pumping the oil contained in the lower case by the start of the compressor will be described in detail with reference to the accompanying drawings. 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.

Hereinafter, the oil pumping apparatus of the compressor according to the present invention, as shown in FIGS. 3 and 4, the rotor 22 is rotated by the magnetic field generated in the stator 20, and this rotor 22 In the center of the crank shaft 40 is formed a spiral oil groove (30) on the outer peripheral surface from the lower end to the upper end, and a plurality of engaging grooves 42 formed on the outer peripheral surface of the lower portion of the crank shaft 40 And, it consists of a guide cap 50 provided on the upper inner circumferential surface of the engaging projection 52 coupled to the engaging groove 42.

Here, the guide cap 50 maintains a space with the outer circumferential surface of the crankshaft 40 so that the oil 4 smoothly moves to the oil groove 30 formed at the bottom of the crankshaft 40, and the lower portion thereof Located below the surface of the oil (4) contained in the case (2) is formed so that the diameter gradually decreases in the downward direction is formed so that the oil (4) can be smoothly supplied by the pressure generated during the rotation of the crankshaft have.

As described above, in the compressor to which the present invention is applied, a state in which the oil pumping device is operated will be described with reference to FIG. First, when power is applied from the outside, the rotor 22 rotates by a magnetic field generated by the stator 20, and the rotation of the rotor 22 is a crank shaft having the guide cap 50 coupled to the bottom thereof. 40 will rotate together.

That is, the rotation of the crank shaft 40 is to rotate the oil groove 30 formed spirally from the lower end to the upper end of the crank shaft 40, the lower end of the portion where the oil groove 30 is formed, the lower case ( Since it is located under the surface of the oil (4) contained in 2) it transmits a rotational force to the oil (4) at a stationary state to generate vortex in the oil (4). In addition, the vortex generated oil 4 is guided by the guide cap 50 coupled to the lower part of the crankshaft 40 to reach the position where the oil groove 30 starts, and the The oil 4 reaching the start position is pumped upward along the oil groove 30 formed up to the upper end of the crankshaft 40. Of course, the oil 4 reached through the oil groove 30 to the upper end of the crankshaft 40 lubricates the friction part of the crank pin 12 rotatably inserted into the large diameter portion of the connecting rod 13. I then repeat the cycle to return to the lower case (2) by its own weight.

As described above, when the oil pumping device of the present invention pumps the oil 4 contained in the lower case 2 of the compressor 1, first, the crank in which the oil groove 30 is formed from the upper end to the lower end of the outer periphery is formed. After positioning the guide cap 50 to the lower portion of the shaft 40, a plurality of engaging projections 52 formed on the upper inner peripheral surface of the guide cap 50 is moved so as to cover the outer diameter of the crank shaft 40 to move upwards Pushed up. Of course, the movement of the locking projection 52 is possible because the upper end of the guide cap 50 is open because it can expand with its own elastic force. That is, the locking protrusion 52 which is moving upward along the outer diameter of the crank shaft 40 is located in the plurality of locking grooves 42 formed in the lower part of the crank shaft 40 and is returned by its own elastic force. The join is completed at once.

As described above, the present invention simplifies the configuration of the oil pumping device for pumping the oil contained in the lower case when the compressor is started, thereby reducing the number of working processes due to the combination, thereby improving productivity as well as being simple and easy for the operator. Not only does it provide convenience to combine, but it also increases the reliability of the product.

Claims (1)

In a compressor having a rotor that rotates by a magnetic field generated by the stator, and a crank shaft disposed in the center of the rotor and lubricating the friction part by pumping the oil contained in the lower case at the lower end of the rotor in rotation And a crank shaft having a spiral oil groove formed on the outer periphery of its outer periphery so as to pump the oil contained in the lower case upward when the rotor is rotated, and installed at the lower portion of the crank shaft to the bottom of the oil groove. And a guide means for guiding the oil introduced therein, wherein the crankshaft has a plurality of engaging grooves formed on an outer circumferential surface of a predetermined point from a lower end thereof to an upper direction thereof, and the guiding means has a radius on an upper inner circumferential surface so as to fit into the engaging groove. A plurality of locking projections protruding toward the center of the direction, and toward the lower end of the crankshaft; Five days a pumping device of the compressor, characterized in that the flow gradually in having a guide cap to become small and, between the inner circumferential surface of the outer circumferential surface and the guide means of the lower end of the crankshaft, the space that the oil is to be moved is formed.

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