KR200158617Y1 - Reciprocating type compressor - Google Patents

Abstract

The present application relates to an oil pick-up of a reciprocating compressor, the oil pick-up of the present invention, the oil pick-up 40 is inclined and coupled to the eccentric shaft 24 inclined at a predetermined angle (θ) with respect to the rotation center line of the rotation shaft 21. The oil pick-up is formed at the lower end of the bent part 42 and the bent part 42 which are formed to be spaced apart from the straight line 43 and the straight part 43 by a predetermined distance d with respect to the center of rotation of the rotary shaft 21. It is formed in the opening portion 41, the straight portion 43 and the bent portion 42 opened in the rotational direction of the 40 and integrally with the incision line 44 and the incision line 44 cut from the opening portion 41 to the upper end. The oil pick-up according to the present invention is provided with a discharge groove 55 for ejecting a portion of the rising oil is formed, even when the oil level of the lower portion of the sealed container is lowered, or even if the rotation speed of the rotating shaft is reduced Sufficient oil supply to the part is possible There is an advantage to improve the reliability of the reciprocating compressor.

Description

Reciprocating compressor

The present invention relates to an oil pick-up of a reciprocating compressor, and more particularly, to a reciprocating compressor for improving the shape of the oil pick-up to smoothly supply oil.

A general reciprocating compressor has a function of compressing a refrigerant to a high temperature and a high pressure in a refrigeration cycle in which compression, condensation, expansion, and evaporation processes are continuously performed using a refrigerant as a working medium to discharge the refrigerant to the outside.

A general reciprocating compressor having such a function is a drive unit 20 for generating power inside the sealed container 10 in which the upper container and the lower container are combined and sealed as shown in FIG. ) And a compression unit 30 that receives power from the driving unit 20 and sucks, compresses, and discharges the refrigerant.

Here, the drive unit 20 has a stator 22a and a rotor 22b, a rotation shaft 21 supported by the support bearing 23 so as to be inserted into the rotor 22b and rotated, and the rotation shaft 21 and An integral eccentric shaft 24 is provided. An oil pick-up 25 is attached to the lower end of the eccentric shaft 24 to smoothly supply oil to the driving unit 20, and an oil supply passage 26a is attached to the oil pick-up 25. It is formed in communication with the supply passage 26b. The oil supply passage 26a extends and communicates with the oil hole 21 formed in the rotation shaft 21. (See FIG. 2).

In addition, the compression unit 30 includes a cylinder 31 having a compression chamber for sucking and compressing a refrigerant, and a connecting rod 34 connecting the piston 33 and the eccentric shaft 24 reciprocating in the cylinder 31. Is provided, and the capillary tube 32 is installed for smooth supply of oil to the compression unit (30). At the inlet end of the cylinder 31, a valve plate 35 having a suction port and a discharge port is mounted.

Since the oil pick-up 25 of the reciprocating compressor is inclined at an angle to the rotation center line of the rotation shaft 21 at the bottom of the eccentric shaft 24 as shown in FIG. 2, the sealed container is rotated as the rotation shaft 21 rotates. (10) The oil stored at the bottom is pumped by the centrifugal force generated in the oil pick-up 25 and the viscous force generated in the oil to move up and move along the oil supply passage 26a of the oil pick-up 25. The oil is supplied to the upper end of the rotating shaft 21 along the oil groove 27 formed in the rotating shaft 21 to lubricate and cool the driving unit 20, and the oil supplied to the driving unit 20 is again sealed. (10) They fall to the bottom and gather.

In the conventional reciprocating compressor, when the oil level 36 of the oil at the bottom of the sealed container 10 is lowered or the rotation speed of the rotating shaft 21 is decreased by an operation frequency lower than the normal operation frequency, the oil pickup ( 25) the amount of oil pumped by the deceleration is sharply decelerated, there was a problem that the operation of each component of the reciprocating compressor is not smooth.

The present invention is to solve the problems as described above, improve the shape of the oil pick-up reciprocating so that a sufficient amount of oil can be supplied to each component even if the oil level in the bottom of the sealed container is lowered or the operating frequency is reduced by half It is to provide a homogeneous compressor.

1 is a cross-sectional view of a general reciprocating compressor.

Figure 2 is a partial cross-sectional view showing a combined state of the conventional oil pickup.

Figure 3 is a partial perspective view showing a combined state of the oil pickup according to the present invention.

4 is a cross-sectional view of the oil pickup according to the present invention.

Figure 5 is a cross-sectional view showing another embodiment of the oil pickup according to the present invention.

* Explanation of symbols for main parts of the drawings

10: sealed container 20: drive unit

21: axis of rotation 22: stator

23: support bearing 24: eccentric shaft

25: oil pick up 40: oil pick up

In order to achieve the above object, the present invention provides a sealed container in which oil is accumulated at its bottom, a stator installed inside the sealed container to form a magnetic field, a rotor rotating in interaction with the stator, and pressed into the rotor. A rotary shaft rotating together with the rotor, an eccentric shaft eccentrically coupled to the lower end of the rotary shaft, coupled to the lower end of the eccentric shaft, the lower end is immersed in the oil and an oil flow path formed therein to pick up oil by rotation of the eccentric shaft In the reciprocating compressor having a, the oil pick-up is a straight portion is inclined to be inclined to be inclined at a predetermined angle with respect to the center of rotation of the rotary shaft and the eccentric shaft spaced apart from the center of rotation of the rotary shaft below the straight portion by a predetermined distance. The oil pick formed at the bottom of the bent portion and the bent portion so as to be bent Forming the opening in the rotational direction the opening and the straight portion of the bend is characterized in that it includes a discharge groove for ejecting the portion of the oil rising, and integrally formed with the cutting section from the opening to the upper cutting line and line.

Figure 3 is a partial perspective view showing a combined state of the oil pickup according to the present invention, Figure 4 is an oil pickup cross-section according to the present invention. Other components refer to FIG. 1.

As shown, the stator 22a and the rotor 22b are provided inside the sealed container 10, and the rotating shaft 21 is inserted in the rotor 22b. An eccentric shaft 24 is provided below the rotary shaft 21, and an oil pick-up 40 is press-fitted to the lower end of the eccentric shaft 24.

The oil pick-up 40 is provided with a straight portion 43 fitted to the oil pick-up 40 and a bent portion 42 integrally formed under the straight portion 43 as shown in FIGS. 3 and 4. The lower end of the eccentric shaft 24 is inclined at an angle θ in the direction of the center of rotation of the rotation shaft 21, and the center line of the straight portion 43 of the oil pickup 40 is the center of rotation and the extension line of the rotation shaft 21. Seen in

The curved portion 42 is bent at a horizontal axis with respect to the rotation center line of the rotating shaft 21, and a circular opening 41 is formed at the end of the curved portion 42 to be opened along the rotational direction. The center of this opening part 41 has the space | interval of d and the rotation center line of the rotating shaft 21. As shown in FIG. In addition, an incision line 44 is formed horizontally with the cylindrical axis of the oil pick-up 40, and the incision line 44 faces the rotation center of the rotation shaft 21.

On the other hand, when the operating speed of the reciprocating compressor is high, the rotational acceleration of the oil pick-up 40 opening 41 may be increased, and thus more oil may be pumped. Accordingly, as shown in FIG. 5, at one side of the incision line 44 of the oil pick-up 40, a discharge groove 55 having a rectangular gap in each direction with the cylindrical axis communicates with the incision line 44. It is formed. When the pumping amount of the oil is increased, the discharge groove 55 discharges a part of the oil to be pumped to the outside, and is scattered by the rotational force of the oil pick-up 40 of the discharged oil so that the sealed container 10 Lubricating and cooling the components of the compressor located in the lower part.

In the oil pickup 40 of the reciprocating compressor configured as described above, when the rotation shaft 21 rotates about the rotation center line, the oil pickup 40 press-fitted to the lower end of the eccentric shaft 24 also rotates like the rotation shaft 21. do. As the oil pick-up 40 is rotated, the oil contained in the bottom of the sealed container 10 is pumped upward by centrifugal force generated inside the oil pick-up 40. At this time, the opening 41 formed at the lower end of the oil pick-up 40 is rotated at a separation distance between the center of rotation of the rotation shaft 21 and d, so that the opening 41 has a dw (centered around the center of rotation of the rotation shaft 21). w: angular velocity).

That is, the opening 41 of the oil pick-up 40 has an area A and rotates at a speed V (V = dw), at which time it flows into the opening 41 of the oil pick-up 40, and at this time, the oil pick-up 40 of the cylinder The oil passing through the inside of the pipe is introduced by AV ((m ² · m) / sec), ie, volume. As described above, the oil pick-up according to the present invention is such that the oil is pumped by the centrifugal force and the rotational acceleration generated in the opening 41 of the oil pick-up 40.

And when the pumping of an excessive amount of oil is scattered through the incision line 44 and the discharge groove 55 formed in the incision line 44 so that almost uniform amount of oil is pumped, the incision line 44 The oil scattered through the discharge groove 55 is supplied to the lower parts of the driving unit to perform lubrication.

The oil pick-up according to the present invention enables the supply of a sufficient amount of oil to each component even when the oil level of the lower part of the sealed container is lowered or the rotation speed of the rotating shaft is reduced, and also the excessive amount of oil When the oil is pumped to be properly discharged there is an advantage that can improve the operating reliability of the reciprocating compressor more.

Claims (1)

A hermetically sealed container 10 having oil accumulated at a bottom thereof, a stator 22a installed inside the hermetically sealed container 10 to form a magnetic field, a rotor 22b which rotates in interaction with the stator 22a, and A rotary shaft 21 press-fitted into the rotor 22b to rotate together with the rotor 22b, an eccentric shaft 24 eccentrically coupled to a lower end of the rotary shaft 21, and a lower end of the eccentric shaft 24 In the reciprocating compressor having an oil pick-up 40 coupled to the lower end is immersed in the oil and the oil flow path formed therein to pick up the oil in the rotation of the eccentric shaft 24, the oil pick-up 40 is the eccentric With respect to the center of rotation of the rotary shaft 21 on the straight portion 43 and the lower portion of the straight portion 43 is inclined to be inclined inclined to the shaft 24 at a predetermined angle (θ) with respect to the center of rotation of the rotary shaft 21 Of the bent portion 42 and the bent portion 42 formed to be bent to be spaced apart by a predetermined distance (d) An incision line 44 formed at an end and formed in the opening portion 41 and the straight portion 43 and the bend portion 42 opened in the rotational direction of the oil pick-up 40 and cut from the opening portion 41 to the upper end thereof; The reciprocating compressor, characterized in that it is formed integrally with the incision line 44 and has a discharge groove (55) for ejecting a portion of the rising oil.