KR0133039Y1 - Lubricating device of a compressor - Google Patents

Abstract

The present invention relates to a lubrication device of a compressor, and a plurality of oils in which oil is lubricated by the centrifugal force on the inner side of the roller member 30 so as to reduce lubrication increase and frictional loss of the eccentric side 7 and the roller member 30. It characterized in that the groove 31 is provided, to improve the oil supply by forming a plurality of oil grooves 31 in the roller member 30, and to prevent the roller member and the eccentric shaft from twisting by the oil cushion action and At the same time, as the amount of oil circulated increases, a stable oil level can be maintained.

Description

Compressor Lubricator

The present invention relates to a compressor mounted on an air conditioner, and the like, and particularly, a lubrication device of a compressor that increases the oil supply between the eccentric shaft rotated to compress the refrigerant and the roller member to cope with pressure fluctuations to increase the reliability of the compressor. It is about.

Conventional compressors have a main body 1 forming the outer appearance of the compressor as shown in FIGS. 1 to 3, and a stator 3 for forming a magnetic field by receiving external power from the inside of the main body 1. ) Is disposed, and inside the stator 3, a rotor 5 which is rotated under the influence of a magnetic field formed in the stator 3 is disposed, and inside the rotor 5, the rotor is disposed. (5) is rotated in conjunction with the rotating shaft 9 is formed with an eccentric shaft (7) on one side, the rotational and sliding movement as the eccentric shaft (7) rotates on the outside of the eccentric shaft (7) The roller member 11 is provided, and the cylinder member for receiving the roller member 11 at the lower end side of the rotary shaft 9 and the suction chamber and the discharge chamber are formed to form a space for compressing the refrigerant ( 13) is disposed on the upper and lower sides of the cylinder member 13, Upper and lower flanges 15 and 17 are disposed to fix the cylinder member 13, and an upper portion of the main body 1 has a discharge tube 19 for discharging the refrigerant compressed by the cylinder member 13. The accumulator 20 which separates the liquid refrigerant and the refrigerant gas is provided outside the main body 1 so that only the refrigerant gas of the refrigerant evaporated in the evaporator (not shown) is supplied to the compressor. One end of the cumulator 20 and the cylinder member 13 is provided with a suction pipe 21 for sucking refrigerant into the cylinder member 13, and at the bottom of the main body 1 to prevent wear of parts. , Oil storage unit 23 is stored oil is formed to cool the heat generated by the high-speed rotation.

The rotary shaft 9 is formed with a plurality of oil holes (not shown) so that the oil is supplied, and the oil in the oil storage unit 23 is sucked through the oil holes so that the rotary shaft 9, the eccentric shaft 7 The roller member 11 is lubricated and cooled.

A slot portion 13a is formed in the cylinder member 13, and the roller member 11 contacts the slot portion 13a to divide the inside of the cylinder member 13 into a suction chamber and a discharge chamber. The vane member 25 is arranged to be elastic.

One side of the eccentric shaft 7 is formed with a lubrication hole 7a having a semi-ellipse cross section in order to reduce friction loss between the eccentric shaft 7 and the roller member 11 and to increase lubricity.

Reference numeral 13b denotes an intake port through which the refrigerant is sucked into the cylinder member 13, and reference numeral 13c denotes an outlet port through which the compressed refrigerant is discharged from the inside of the cylinder member.

In the conventional compressor configured as described above, when power is applied, a magnetic field is formed in the stator 3, and when the rotor 5 is rotated by the magnetic field formed in the stator 3, the compressor is integrally bound with the rotor 5. As the rotated shaft 9 rotates, the eccentric shaft 7 disposed on one side of the rotary shaft 9 also interlocks and rotates at high speed, and as the eccentric shaft 7 rotates, the eccentric shaft 7 rotates. The extrapolated roller member 11 is interlocked and the vane member 15 inserted into the slot portion 13a of the cylinder member 13 is linearly reciprocated as the roller member 11 is interlocked and rotated. do.

As described above, the roller member 11 extrapolated to the eccentric shaft 7 is sucked through the suction pipe 21 formed at one end of the cylinder member 13 by rotating and reciprocating in the cylinder member 13. The refrigerant is compressed at high temperature and high pressure, and the refrigerant compressed at high temperature and high pressure is discharged to the outside of the upper flange 15 through an unshown discharge port formed at one side of the cylinder member 13.

The refrigerant discharged to the outside of the upper flange 15 is moved upward along the guide passage (not shown) and discharged to the outside of the compressor through the discharge pipe 19 disposed above the main body 1.

On the other hand, the oil stored in the oil storage unit 23 while the refrigerant is compressed as described above is lifted by the oil paddle (not shown) to perform the lubricating cooling action of each part, and the oil drawn up as described above is eccentric It is lubricated through the lubrication hole 7a formed on one side of the shaft 7 to reduce the friction loss between the eccentric shaft 7 and the roller member 11, thereby increasing the lubricity.

However, in the conventional compressor configured as described above, since the lubrication hole 7a is formed only on one side of the eccentric shaft 7, the eccentric shaft 7 and the roller member 11 may not be supplied or stored with sufficient oil during initial operation or in severe conditions. There was a problem in that the effect of reducing friction loss and increase the lubricity with).

Therefore, the present invention was devised to solve the above-described problems, and an object of the present invention is to improve lubrication between the eccentric shaft and the roller member, thereby reducing friction loss and increasing lubricity, and at the same time up and down the roller member. Provided is a lubrication device for a compressor that prevents distortion of left and right sides.

1 is an overall longitudinal cross-sectional view schematically showing the configuration of a conventional hermetic compressor.

2 is a partial cross-sectional view schematically showing the configuration of a compression unit of a conventional hermetic compressor.

3 is an exploded perspective view showing the configuration of a compression unit of a conventional hermetic compressor.

Figure 4 is a cross-sectional view showing the configuration of the compression unit of the compressor according to an embodiment of the present invention.

5 is a perspective view showing the roller member of the compressor according to an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

7: eccentric shaft 9: rotation shaft

13 cylinder member 25 vane member

30: roller member 31: oil groove

The lubrication apparatus of the compressor according to the present invention made to achieve the above object is a rotor rotated by a magnetic field, a rotary shaft rotated in association with the rotor and the eccentric shaft is disposed, and the eccentric shaft is extrapolated to the eccentric shaft In the compressor having a roller member in conjunction with the rotating and linear movement, the compressor is a plurality of oils in which oil is lubricated by the centrifugal force on the inner side of the roller member to increase the lubrication of the eccentric shaft and the roller member and reduce friction loss Characterized in that the groove is provided.

Hereinafter, a preferred embodiment of the present invention will be described in more detail with reference to FIGS. 4 and 5.

The same parts as those shown in FIGS. 1 to 3 are given the same reference numerals and the same names.

As shown in FIG. 4 and FIG. 5, there is a rotation shaft 9 having an eccentric shaft 7 formed at one end thereof so as to be interlocked by a rotating rotor, and an outer side of the eccentric shaft 7 has an eccentric shaft ( As the 7 rotates, the roller member 30 which rotates and slides is disposed. The lower end side of the rotating shaft 9 accommodates the roller member 11 and a suction chamber and a discharge chamber are formed. The cylinder member 13 which forms the space which compresses a refrigerant | coolant is arrange | positioned.

The rotary shaft 9 is formed with a plurality of oil holes (not shown) so that the oil is supplied, and the oil in the oil storage unit 23 is sucked through the oil holes so that the rotary shaft 9, the eccentric shaft 7 The roller member 11 is lubricated and cooled.

A slot portion 13a is formed in the cylinder member 13, and the roller member 11 contacts the slot portion 13a to divide the inside of the cylinder member 13 into a suction chamber and a discharge chamber. The vane member 25 is arranged to be elastic.

On one side of the eccentric shaft 7, a lubrication hole 7a having a semi-ellipse shape in cross section is machined in order to reduce friction loss between the eccentric shaft 7 and the roller member 11 and to increase lubricity.

Inside the roller member 30, a plurality of oil grooves 31 are provided to increase the lubricity and lubricity by oil supply by centrifugal force to cushion and keep the oil film constant so as to prevent wear and distortion of the parts. Formed.

Reference numeral 13b denotes an inlet through which the refrigerant is sucked into the cylinder member 13, and reference numeral 13c denotes an outlet through which the compressed refrigerant is discharged from the inside of the cylinder member 13.

Next will be described the operation of the lubricator of the compressor according to an embodiment of the present invention.

First, as the rotary shaft 9 rotates, the eccentric shaft 7 formed at one end of the rotary shaft 9 interlocks, and the roller extrapolated to the eccentric shaft 7 as the eccentric shaft 7 rotates. As the member 11 is interlocked and the roller member 11 is interlocked and rotated, the vane member 25 which is elastically inserted into the slot 13a of the cylinder member 13 linearly reciprocates.

As described above, the roller member 11 extrapolated to the eccentric shaft 7 is sucked through the suction pipe 21 formed at one end of the cylinder member 13 by rotating and reciprocating the cylinder member 13. The refrigerant is compressed at high temperature and high pressure, and the refrigerant compressed at high temperature and high pressure is discharged to the outside of the upper flange 15 through an unshown discharge port formed at one side of the cylinder member 13.

The oil reservoir of the oil storage part (not shown) is driven by the eccentric shaft 7 and the roller member 30, which are rotated during the compression operation as described above, and ride on the oil groove 31 formed at one side of the roller member 30. The oil lubricated and lubricated as described above forms an oil film to cushion the eccentric shaft 7 and the roller member 30 as a cushioning action, and maintains a stable oil level by increasing the amount of circulation of oil. Improve the reliability of the compressor.

As described above, according to the lubrication apparatus of the compressor according to the present invention, the oil supply is increased by forming a plurality of oil grooves inside the roller member, and the oil cushion action prevents warpage of the roller member and the eccentric shaft and As the amount of circulation increases, a stable oil level can be maintained.

Claims (1)

Compressor having a rotor rotated by a magnetic field, a rotating shaft which rotates in association with the rotor, the eccentric shaft is disposed, and a roller member that is extrapolated to the eccentric shaft and interlocked with the eccentric shaft for rotational movement and linear movement. In the eccentric shaft (7) and the roller member 30 is provided with a plurality of oil grooves 31 for supplying oil by centrifugal force in the inner portion of the roller member 30 to reduce the lubrication increase and friction loss Lubricator of the compressor, characterized in that.