KR0129649Y1 - Lubricating device of compressor - Google Patents

Abstract

The present invention relates to a lubrication apparatus of a compressor for compressing and discharging a fluid such as a refrigerant. In the hermetic compressor which eccentrically rotates in the cylinder to compress the fluid, the upper and lower flanges (70) and (80), which are fixed to the upper and lower sides of the cylinder (6) to rotatably support the rotating shaft (3), and The oil 13 formed on the inside of the upper and lower plinth materials 70 and 80 is stored in accordance with the operation of the oil pick-up member 14 and at the same time, the stored oil 13 is moved to the periphery of the rotary shaft 3. A plurality of oil storage grooves 70a, 70b, 80a are provided to form a plurality of oil storage grooves in which oil is stored inside the upper and lower flanges, thereby minimizing frictional resistance with the rotating shaft and at the same time, friction loss. Can be minimized and friction The oil stored in not only possible to prevent the deformation of the rotating shaft as the oil storage groove continuously supplied to the friction portion due to the rotation will thereby operate more smoothly.

Description

Compressor Lubricator

1 is an overall longitudinal cross-sectional view of a typical hermetic rotary compressor.

2 is a partially enlarged cross-sectional view showing a lubrication device applied to a conventional compressor.

3 is a partially enlarged cross-sectional view showing a lubricator of the compressor according to the present invention.

* Explanation of symbols for main parts of the drawings

2: stator 3: rotating shaft

3a: cam 4: rotor

5: roller 6: cylinder

13: oil 14: oil pick-up member

70: upper flange 70a, 70b: oil reservoir groove

80: lower flange 80a: oil reservoir groove

The present invention relates to a compressor that is applied to a refrigerator, an air conditioner, etc. to compress and discharge a fluid such as a refrigerant, and more specifically, to form a plurality of oil reservoir grooves in which oil is stored inside the upper and lower flanges to lubricate. It relates to a lubricator of the compressor to be made more smoothly.

In general, as shown in FIGS. 1 and 2, the hermetic rotary compressor is provided with a fixed height (2) inside the sealed case (1), and a rotating shaft (3) inside the stator (2). The rotor (4) having a rotation freely installed, is provided on the side of the cam (3a) eccentrically formed on the lower side of the rotary shaft (3) of the cam (3a) formed eccentrically below the rotary shaft (3) The roller (5) is inserted into the rotation side, the cam (3a) and the roller (5) is installed freely rotatably inserted inside the cylinder (6), the upper and lower sides of the cylinder (6) the rotary shaft (3) The upper and lower flanges (7) (8) for rotatably supporting them are fastened and fastened.

In addition, a muffler 9 for discharging the refrigerant gas compressed in the cylinder 6 is fastened and fixed to an upper side of the upper flange 7, and a noise or vibration due to suction of the refrigerant is provided at one side of the cylinder 6. Accumulator 10 for attenuating the gas is connected via a suction pipe 11, and a discharge pipe for discharging the refrigerant gas discharged through the muffler 9 to the outside of the case 1 above the case 1; (12) is connected.

In addition, an oil pick-up member 14 which raises the oil 13 stored in the case 1 to the inside of the rotation shaft 3 and supplies the inside of the cylinder 6 and the inside of the upper flange 7 is provided. It is inserted and installed.

Therefore, when the rotor 4 and the rotation shaft 3 are rotated by the magnetic field formed by applying the current to the stator 2, the cam 3a and the roller 5 which are integrally rotated with the rotation shaft 3 are rotated. Hop input is applied to the inside of the cylinder 6 by the eccentric rotation of), and the refrigerant flowing into the cylinder 6 through the accumulator 8 and the suction pipe 11 by the suction force acting is cam. It is compressed to a predetermined pressure by the operation of the roller 5 according to the eccentric rotation of (3a) and then discharged through the muffler 9 and the discharge pipe 12.

In addition, the oil pick-up member 14 rotated according to the operation of the rotating shaft 3 raises the oil 13 stored in the case 1 and discharges it through the outer circumferential surface of the rotating shaft 3 to thereby form the inner side of the cylinder 6. Or by supplying the oil (13) to the inside of the upper flange (7) is to achieve a smooth rotation operation.

However, in the conventional compressor configured as described above, the inner and outer surfaces of the upper and lower flanges slide in close contact with the outer circumferential surface of the rotating shaft, so that frictional heat is generated due to frictional loss, and the rotating shaft is deformed or rotated due to the frictional heat generated at this time. Various problems are inherent such that the rotation operation is not smooth.

The present invention is devised to solve the problems of the prior art as described above, the object of the present invention is to form an oil oil reservoir groove on the inner side of the upper and lower flanges to minimize the frictional loss with the rotating shaft at the same time It is to provide a lubrication device of the compressor that can be supplied to enable the smooth rotation operation.

The lubrication apparatus of the compressor according to the present invention made to achieve the above object has a stator and a rotor, a rotating shaft having a cam eccentrically rotated according to the operation of the rotor, and a roller coupled to the cam in the cylinder. In the hermetic compressor which eccentrically rotates to compress the fluid, the four lower and lower flanges are fixed to the upper and lower sides of the cylinder to rotatably support the rotating shaft, and are formed inside the four lower and lower flanges for the operation of the oil pick-up member. Along with the storage of the oil supplied along with a plurality of oil storage grooves for supplying the stored oil to the periphery of the rotary shaft to form a plurality of oil storage grooves in which the oil is stored in the upper and lower flanges of the friction resistance with the rotating shaft At the same time, friction loss can be minimized, thereby preventing deformation of the rotating shaft due to frictional heat. As well as being supplied to the oil it is continuously stored in the oil storage groove friction portion and that the turning operation to be more smoothly with its features.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to FIG. 3.

In the drawings, the same components as the conventional components are denoted by the same name and the same reference numerals, and detailed description thereof will be omitted.

First, the upper flange 70 and the lower flange 80 are fixed to the upper and lower sides of the cylinder 6 in which the cam 3a for eccentric rotation is inserted, so that the rotating shaft 3 can be freely rotated, and the cam ( 3a) is combined with a roller 5 for compressing fluid such as a refrigerant and discharging upward through the muffler 9 while being eccentrically rotated in the cylinder 6.

In addition, a plurality of oil storage grooves 70a and 70b are formed on the inner surface of the upper flange 70 to store the oil 13 supplied by the operation of the oil pickup member 14 inserted into the rotary shaft 3. The oil storage groove 80a for storing the oil 13 supplied by the operation of the oil pick-up member 14 is formed on the inner surface of the lower flange 80.

The oil storage grooves 70a, 70b and 80a are more preferably formed in a direction orthogonal to the center line of the rotation shaft 3, which is upper and lower flanges with the rotation shaft 3 during the rotation operation of the rotation shaft 3. The friction area with the 70 and 80 is minimized, and the oil 13 stored in the oil storage grooves 70a, 70b, and 80a is supplied to the friction portion to achieve a smoother rotational operation.

Next will be described the operation and effect on the lubricator of the compressor according to the present invention configured as described above.

First, when the rotor 4 and the rotation shaft 3 rotate by a magnetic field formed by applying a current to the stator 2, the cam 3a which is integrally rotated with the rotation shaft 3 becomes a roller ( 5) the suction force is generated while being eccentrically rotated integrally with 5) to suck the refrigerant into the cylinder 6 through the accumulator 18 and the suction pipe 11.

The refrigerant introduced into the cylinder 6 is compressed to a predetermined pressure by the operation of the roller 5 according to the eccentric rotation of the cam 3a, and then discharged through the muffler 9 and the discharge pipe 12. The operation will be repeated repeatedly.

At this time, the oil pick-up member 14 rotated according to the operation of the rotary shaft 3 raises the oil 13 in the case 1 to lubricate through the outer circumferential surface of the rotary shaft 3 to perform a lubrication action. The oil 13 dropped and supplied between the rotary shaft 3 and the upper and lower flanges 70 and 80 is temporarily stored in the oil storage grooves 70a, 70b and 80a to continuously perform lubrication. do.

That is, the oil 13 stored in the oil storage grooves 70a, 70b and 80a is continuously rotated by the rotation shaft 3 and the upper and lower flanges 70 and 80 according to the rotation operation of the rotation shaft 3. ) Is supplied between to perform lubrication.

According to the lubrication apparatus of the compressor according to the present invention as described above, by forming a plurality of oil storage grooves in which the oil is stored in the upper and lower flanges, the frictional resistance with the rotating shaft can be minimized and the friction loss can be minimized. Accordingly, not only the deformation of the rotating shaft due to the frictional heat can be prevented, but also the oil stored in the oil storage groove is continuously supplied to the friction part, thereby providing various advantages such as smooth rotation operation.

Claims (1)

A rotating shaft 3 having an eccentrically rotated cam 3a, a roller 5 coupled to the cam 3a in the cylinder 6 to eccentrically rotate and compressing the fluid, and an upper and lower side of the cylinder 6; Coupled to the upper and lower flanges 70 and 80 to rotatably support the rotating shaft 3 and the oil 13 stored at the bottom in the cylinders 70 and 80 to the periphery of the rotating shaft 3. In the compressor having an oil pick-up member 14 formed inside the rotary shaft 3 to supply, the inner and outer peripheral surfaces of the four lower, lower flanges (70) 80, the rotary shaft in accordance with the operation of the oil pickup member (14) The oil 13 picked up to the outer circumferential surface of (3) is received and stored in a predetermined amount, and has a predetermined depth so as to continuously supply the friction portion between the rotating shaft 3 and the upper and lower flanges 70 and 80 at the same time. 3) a plurality of oil storage grooves 70a, 70b and 80a respectively opened toward the outer circumferential surface of the compressor, Lubricator.