KR20060104430A - Apparatus for limiting oil supply quantity of an inverter compressor - Google Patents

Abstract

The present invention relates to an inverter compressor, and more particularly, to an oil supply amount limiting device of an inverter compressor, which prevents excessive supply of oil by limiting oil supply through bypass when the rotation speed is increased. And a fuel supply pump installed at a lower end of the rotary shaft such that oil filled in the shell is supplied to the compression unit through a rotary shaft rotated by the inverter drive unit, and an oil passage formed in the axial direction inside the rotary shaft. In; An installation hole formed in the rotation shaft in communication with the oil flow path; A bypass flow path formed on the rotating shaft so as to be connected to an inner end of the installation hole; The bypass passage is closed when the rotary shaft is rotated in a state of being installed inside the installation hole, and the bypass passage is opened during high-speed rotation to bypass the oil rising through the oil passage to limit the oil supply amount. Oil supply flow rate limiting unit; Include.

Inverter, compressor, lubrication, oil supply, limit

Description

Apparatus for limiting oil supply quantity of an inverter compressor}

1 is a longitudinal cross-sectional view showing a conventional inverter compressor,

2 is an enlarged view illustrating main parts of FIG. 1;

3 is an overall longitudinal cross-sectional view showing an inverter compressor according to the present invention;

4 is an enlarged view of a portion A according to FIG. 3;

5 is an enlarged longitudinal sectional view of a main portion showing an operating state in a low speed operation;

6 is an enlarged longitudinal sectional view of a main portion showing an operating state at the time of high speed operation;

* Explanation of symbols for the main parts of the drawings

10: installation worker

20: Bypass Euro

30: oil supply limit

   31: sealing jaw 32: weight

   33: elastic pressing unit

      331: spring 332: fixing member

The present invention relates to an inverter compressor, and more particularly, to an oil supply amount limiting device of an inverter compressor to prevent an excessive supply of oil by limiting the oil supply amount through a bypass when the rotation speed is increased.

1 is an overall longitudinal cross-sectional view showing a conventional inverter compressor, Figure 2 is an enlarged view of the main portion of FIG.

As shown in the drawing, a conventional inverter compressor includes a shell 100 having a suction pipe 101 and a discharge pipe 102, and a main frame 200 and a sub which are respectively fixed to upper and lower sides of the shell 100. The frame 300, the inverter driver 400 mounted between the main frame 200 and the subframe 300, the rotation shaft 500 rotated by the inverter driver 400, and the rotation shaft 500 And a compression unit 600 installed above the main frame 200 to compress the introduced refrigerant.

The inverter driver 400 includes a rotor 401 mounted around the rotation shaft 500 and a stator 402 surrounding the rotor 401, and compresses the amount of refrigerant by an applied power source. It serves to rotate the rotating shaft 500 at a high speed or a low speed so as to be variable.

In addition, the compression unit 600 is provided on the upper surface of the main frame 200 and coupled to the upper end of the rotating shaft 500, the swinging scroll 601 and the pivoting scroll 601 is engaged with the plurality of compression scroll It is composed of a fixed scroll 602 mounted on the upper surface of the main frame 200 to form a seal.

The rotary shaft 500 is formed to penetrate the oil passage 501 long in the axial direction therein, the lower end of the rotary shaft 500 by pumping the oil filled in the shell 100 is compressed through the oil passage (501) An oil supply pump 700 for supplying the part 600 is provided.

The oil supply pump 700 forms an oil chamber C together with the subframe 300 and is eccentrically coupled to the pump cover 701 having an oil suction opening 701a and rotatable to the lower end of the rotation shaft 500. The pump roller 702 is provided between the pump roller 702 for pumping oil while eccentrically rotating in the oil chamber C, and the upper surface of the pump cover 701 and the lower surface of the pump roller 702. It consists of a pump plate 703 that supports the slide.

The oil supply pump 700 configured as described above generates a pressure difference while the pump roller 702 rotates in the oil chamber C in accordance with the rotation of the rotary shaft 500. Filled oil is sucked through the oil inlet 701a of the pump cover 701 and is forcibly pushed into the oil passage 501 of the rotating shaft 500 and is supplied to the compression unit 600.

However, the above conventional technologies have the following problems.

When the inverter compressor operates at a high frequency, that is, at a high speed by the inverter driving unit, the oil supply volume through the oil passage is relatively increased by a volumetric oil supply pump of a forced feeding method, and thus oil is excessively supplied to the compression unit. There was a problem.

As such, the oil supplied excessively to the compression part is excessively discharged to the outside of the shell together with the compressed refrigerant gas, thereby lowering the oil level of the oil into the shell.

As described above, the lowering of the oil level due to excessive oil discharge may cause refueling and cause incompressibility, and at the same time, it has been a major factor that degrades the performance of the compressor.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the present invention is to limit the amount of oil supply through the bypass to increase the rotation speed of the inverter compressor to prevent excessive supply of oil To provide a flow restrictor.

In addition, another object of the present invention is to provide a refueling amount limiting device of the inverter compressor to be limited to the oil supply amount by using a centrifugal force of the rotating shaft with a simple structure.

In addition, another object of the present invention is to provide an oil supply amount limiting device of the inverter compressor to facilitate the elastic restoration of the weight body with a simple structure.

In order to achieve the object of the present invention as described above, the oil supply amount limiting device of the inverter compressor according to the present invention is a rotary shaft rotated by the inverter drive unit capable of adjusting the rotational speed, the oil flow path formed in the axial direction inside the rotary shaft An inverter compressor comprising an oil supply pump installed at a lower end of the rotary shaft such that oil filled in the shell is supplied to the compression unit through the shell. An installation hole formed in the rotation shaft in communication with the oil flow path; A bypass flow path formed on the rotating shaft so as to be connected to an inner end of the installation hole; The bypass passage is closed when the rotary shaft is rotated in a state of being installed inside the installation hole, and the bypass passage is opened during high-speed rotation to bypass the oil rising through the oil passage to limit the oil supply amount. Oil supply flow rate limiting unit; It is characterized by including.

In addition, the oil supply amount limiting portion, the inner side of the installation hole so that one side of the sealing jaw formed between the front end of the installation hole and the oil passage and the one side surface is in contact with the sealing jaw and slide outward by the centrifugal force of the rotating shaft. It characterized in that it is composed of a weight body provided in, and an elastic pressing unit installed in the installation hole to elastically press the weight body.

The elastic pressing unit may include a spring provided inside the installation hole so as to contact one surface of the weight body, and a fixing member attached to an outer circumferential surface of the rotating shaft to close the outer end of the installation hole while fixing the spring. It is characterized in that the configuration.

In addition, the bypass passage is characterized in that the inclined in the upper direction toward the outer circumferential surface of the rotary shaft from the tip of the installation hole.

In addition, the installation hole is characterized in that it is formed orthogonal to the circumference of the rotating shaft while being formed horizontally orthogonal to the oil passage.

Hereinafter, with reference to the accompanying drawings will be described in detail the oil supply amount limiter of the inverter compressor according to the present invention.

3 is an overall longitudinal sectional view showing the inverter compressor according to the present invention, Figure 4 is an enlarged view of a portion A according to FIG.

As shown therein, the oil supply flow restrictor of the inverter compressor includes an installation hole 10 formed in the rotation shaft 5 so as to communicate with the oil flow path 5a of the rotation shaft 5, and the inside of the installation hole 10. Bypass passage 20 formed on the rotary shaft 5 so as to be connected to the front end, and the bypass passage 20 during the low-speed rotation of the rotary shaft 5 in the state installed inside the installation hole 10 At the time of high speed rotation while closing, the bypass flow path 20 is opened, and the oil flow rate limiting part 30 restricts the oil supply amount by bypassing the oil rising through the oil flow path 5a.

The installation hole 10 serves to guide the oil which is raised to the compression unit 6 through the oil passage 5a by the oil supply pump 7 to the oil supply quantity limiting portion 30 and at the same time the oil supply quantity limiting portion. It serves to provide a space so that the 30 can be smoothly installed in the interior of the rotary shaft (5).

In addition, the installation hole 10 is preferably formed to be perpendicular to the circumference of the rotating shaft 5 while being formed horizontally orthogonal to the oil passage (5a), which is installed in the installation hole 10 By the centrifugal force of the rotary shaft 5 is to ensure that the oil supply flow rate limiting unit 30 that slides outward along the installation hole 10 more stably.

In addition, the bypass flow path 20 serves to bypass a portion of the oil rising to the compression unit 6 through the installation hole 10 to bypass the inside of the shell 1 through the outer circumferential surface of the rotating shaft 5. To do.

In addition, the bypass passage 20 is preferably formed to be inclined in an upward direction toward the outer circumferential surface of the rotation shaft 5 at the tip of the installation hole 10, which is the oil is raised through the oil passage (5a) It is intended to flow more smoothly by the lifting force while flowing into the pass passage (20).

In addition, the oil supply quantity limiting portion 30 is a sealing jaw 31 formed between the front end of the installation hole 10 and the oil flow passage (5a), one side of the sealing jaw 31 abuts the rotary shaft ( The weight body 32 provided in the installation hole 10 to slide outward by the centrifugal force of 5), and installed in the installation hole 10 to elastically press the weight body 32 It is composed of an elastic pressing unit 33.

In addition, the elastic pressing unit 33 is a spring 331 provided to the interior of the installation hole 10 to abut one surface of the weight body 32, and the installation hole 10 while fixing the spring 331 It consists of a fixing member 332 attached to the outer peripheral surface of the rotary shaft 5 to close the outer end of the.

The oil supply flow rate limiting unit 30 has a low centrifugal force at the low speed of the inverter driving unit 4, that is, if the rotating shaft 5 is rotated at a low speed by the inverter driving unit 4, the weight body 32 is small. ) Is stopped by the frictional force with the installation hole 10 and the elastic support force of the spring 331, and thus the weight body at the tip of the installation hole 10 that is in communication with the oil passage 5a, that is, the closing jaw 31. One side of the (32) is maintained in close contact serves to close the bypass flow path (20).

In addition, the oil supply flow rate limiting unit 30 is a centrifugal force of the rotating shaft 5 when the inverter shaft 4 rotates at a high speed, that is, when the inverter shaft 4 is rotated at a high speed. The friction force between the 32 and the installation hole 10 and the elastic support force of the spring 331 is turned on to the outer side along the installation hole 10 in a state in which the weight body 32 presses the spring 331. After a portion of the oil is introduced into the oil passage (5a) through the inlet of the installation hole 10 is introduced into the shell (1) through the outer peripheral surface of the rotary shaft (5) through the bypass passage (20) It bypasses the inside.

In this way, when the compressor operates at a high speed, a part of the oil supplied to the compression unit 6 through the oil supply pump 7 and the oil passage 5a is bypassed into the shell 1, whereby the compression unit ( 6) the excessive supply of oil is prevented, so that the increase of oil discharge is prevented in advance, and thus the lowering of oil level due to excessive oil discharge is prevented.

In addition, the elastic pressing unit 33 serves to elastically support the weight body 32 and at the same time closes the outer end of the installation hole 10 formed on the rotary shaft 5 through the fixing member 332 and airtight Is to keep this.

Fig. 5 is an enlarged longitudinal sectional view of a main part showing an operating state at a low speed operation, and Fig. 6 is an enlarged longitudinal sectional view of a main part showing an operating state at a high speed operation.

As shown in FIG. 5, when the rotating shaft 5 is rotated at a low speed, the centrifugal force of the rotating shaft 5 is small, and the weight body 32 is caused by the frictional force with the installation hole 10 and the elastic support force of the spring 331. Is stopped.

As described above, when the weight body 32 stops in contact with the sealing jaw 31 in the installation hole 10, the tip of the installation hole 10 communicating with the oil flow passage 5a and the bypass communicated with the oil passage 5a. The flow path 20 is in a sealed state, whereby the rising of oil through the oil flow path 5a is smoothly maintained during low speed operation.

As shown in FIG. 6, when the rotating shaft 5 is rotated at a high speed, the centrifugal force of the rotating shaft 5 is the sum of the frictional force between the weight body 32 and the installation hole 10 and the elastic bearing force of the spring 331. In turn, the weight 32 is slid outward along the installation hole 10 in a state of pressing the spring 331.

As described above, when the weight body 32 slides along the installation hole 10 and is separated from the inlet closing jaw 31 of the installation hole 10, the weight body 32 is lifted up to the oil passage 5a through the installation hole 10. After a part of the oil is introduced, the oil is bypassed to the outer circumferential surface of the rotating shaft 5 through the bypass passage 20 opened together with the tip of the installation hole 10.

Therefore, a portion of the oil which is raised through the oil passage 5a during the high speed operation of the rotary shaft 5 is bypassed into the compressor through the bypass passage 20 to prevent excessive supply of oil while supplying oil. This is constantly limited.

As described above, in the present invention, when the rotation speed is increased, the oil supply amount is prevented through the bypass to prevent excessive supply of oil, thereby reducing the oil discharge amount and preventing the oil level of the oil filled into the shell from being lowered and improving the reliability of the compressor. Effect.

In addition, the present invention has a simple structure by using the centrifugal force of the rotating shaft to limit the oil supply, it is easy to manufacture and installation and has the effect of improving the stability and precision in operation.

In addition, the present invention by the simple structure to make the elastic restoration of the weight smoothly, it is easy to install and assemble has the effect of improving the operational stability.

Claims (5)

Oil supply pump installed at the lower end of the rotating shaft so that the oil is filled in the inside of the shell through the rotating shaft rotated by the inverter drive unit which can adjust the rotation speed and the oil flow path formed in the axial direction inside the rotating shaft An inverter compressor comprising; An installation hole formed in the rotation shaft in communication with the oil flow path; A bypass flow path formed on the rotating shaft so as to be connected to an inner end of the installation hole; The bypass passage is closed when the rotary shaft is rotated in a state of being installed inside the installation hole, and the bypass passage is opened during high-speed rotation to bypass the oil rising through the oil passage to limit the oil supply amount. Oil supply flow rate limiting unit; Refrigerant flow rate limiting device of the inverter comprising a. The method of claim 1; The oil supply amount limiting portion is provided in the interior of the installation hole such that a sealing jaw formed between the tip of the installation hole and the oil flow path and one side of the sealing jaw abuts and slides outward by the centrifugal force of the rotating shaft. Restriction of the oil supply of the inverter compressor, characterized in that it is composed of a weight body and an elastic pressing unit installed in the installation hole to elastically press the weight body. The method of claim 2; The elastic pressing unit is composed of a spring provided to the inside of the installation hole to abut one surface of the weight body, and a fixing member attached to the outer peripheral surface of the rotating shaft to close the outer end of the installation hole while fixing the spring Refrigerant flow rate limiter of the inverter compressor, characterized in that. The method according to any one of claims 1 to 3; The bypass flow path restriction device of the inverter compressor, characterized in that the inclined in the upward direction toward the outer circumferential surface of the rotary shaft from the tip of the installation hole. The method of claim 2 or 3; The installation hole is the oil supply flow restrictor of the inverter compressor, characterized in that formed in the horizontal orthogonal to the oil passage and orthogonal to the circumference of the rotating shaft.

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