KR100724377B1 - Apparatus for reducing oil discharge of high pressure scroll compressor - Google Patents

Abstract

The present invention relates to a device for reducing the oil discharge of a scroll compressor, the present invention comprises a casing filled with a predetermined amount of oil; A fixed scroll fixedly installed in the casing; A rotating scroll which engages with the fixed scroll and forms a compression chamber together with the fixed scroll; And an inner space having an inlet and an outlet inside the casing, and a plurality of vertical walls forming upper and lower zigzag gas passages and a straight oil passage at the lower ends of the vertical walls. By including an oil separation member having at least one horizontal wall, it is possible to easily separate the oil from the refrigerant gas discharged into the casing, thereby preventing the oil from being discharged to the refrigeration cycle system to increase the reliability of the compressor By increasing the cooling effect of the motor, it improves the motor efficiency and prevents the blockage of the set from being blocked by oil, thereby improving the performance of the whole set.

Description

Oil discharge reduction device of scroll compressor {APPARATUS FOR REDUCING OIL DISCHARGE OF HIGH PRESSURE SCROLL COMPRESSOR}

1 is a cross-sectional view showing an example of a conventional high pressure scroll compressor;

Figure 2 is a cross-sectional view showing an example of the high-pressure scroll compressor of the present invention,

3 is a cross-sectional view taken along line "I-I" of FIG.

Figure 4 is an exploded view showing the present invention the separating member,

5 is a partially developed view showing a modification of the oil separation member of the present invention.

** Description of symbols for the main parts of the drawing **

1: casing 2: mainframe

2d: gas communication groove 4: drive motor

4A: Stator 4B: Rotor

5: drive shaft 6: fixed scroll

6d: gas passage groove 7: turning scroll

10: oil separation member 11: cylinder

11a: common inlet 11b: gas outlet

11c oil outlet 12 vertical wall

13: horizontal wall 13a: oil through hole

h: axial flow path

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for reducing oil discharge of a scroll compressor, and more particularly, to an apparatus for reducing oil discharge of a scroll compressor that separates gas and oil in a casing of the scroll compressor to block the outflow of oil.

In general, a scroll compressor is a high-efficiency low noise compressor widely applied to an air conditioner. A plurality of compression chambers are formed in pairs between scrolls while the two scrolls rotate relative to each other, and the compression chamber continuously moves toward the center. The volume decreases and the refrigerant gas is continuously sucked and compressed to be discharged.

The scroll compressor can be classified into low pressure type and high pressure type according to whether the suction gas or the discharge gas is filled in the casing. As shown in FIG. 1, the high-pressure scroll compressor maintains a high pressure state and fixes the casing 1 having a gas suction pipe SP and a gas discharge pipe DP and fixed to upper and lower sides of the casing 1, respectively. A main motor 2 and a subframe 3, a drive motor 4 mounted between the main frame 2 and the subframe 3 to generate rotational force, and a rotor 4B of the drive motor 4; A drive shaft 5 which is press-fitted into the center and penetrates the main frame 2 to transmit the rotational force of the drive motor 4, and is fixedly installed on the upper surface of the main frame 2 to directly couple the gas suction pipe SP. A fixed scroll (6), a pivoting scroll (7) rotatably mounted on an upper surface of the main frame (2) to be engaged with the fixed scroll (6) to form a plurality of compression chambers (P), and a pivoting scroll (7); Oldham's ring (8) is provided between the main frame (2) to swing while preventing the rotation of the swing scroll (7) And also.

The gas suction pipe SP passes through the casing 1 and communicates with the suction port 6b of the fixed scroll 6, while the gas discharge pipe DP is disposed on the opposite side of the fixed scroll 6 around the main frame. It is installed so as to be sealed in the inner space.

The main frame 2 forms a shaft hole 2a for radially supporting the drive shaft 5 in the center thereof, and the boss portion 7b of the swing scroll 7 is pivoted in the upper half of the shaft hole 2a. The boss accommodating groove (2b) is formed to extend, and the upper surface edge has a predetermined internal volume with the rear surface of the turning scroll (7) and the annular back pressure space groove so that the refrigerant gas of the intermediate pressure side pressure is filled in the internal volume. (2c) is formed to be negative.

In addition, the main frame 2 has its outer circumferential surface in close contact with the inner circumferential surface of the casing 1 to be fixedly welded, and the gas discharge pipe DP communicates with the opposite side of the fixed scroll 6 about the main frame 2. The gas communication groove 2d is formed in a suitable place along the outer circumferential surface of the main frame 2 so that the discharge gas discharged through the fixed scroll 6 can be guided to the gas discharge pipe DP. .

The drive motor 4 is composed of a stator 4A inserted into and fixed to the inner circumferential surface of the casing 1, and a rotor 4B rotatably coupled with a predetermined gap inside the stator 4A. The stator 4A is formed in a substantially hexagonal shape in planar projection to form several axial flow paths h on the outer circumferential surface of which the discharge gas flows together with the casing 1.

The drive shaft 5 press-fits the rotor 4B of the drive motor 4 to support the upper and lower sides with the main frame 2 and the subframe 3, respectively, and sucks oil from the casing 1 therein. The oil flow path 5a is formed long in the axial direction so as to lubricate each bearing surface.

The fixed scroll 6 forms an involute shape of a wrap 6a constituting two pairs of compression chambers P on the bottom surface of the hard plate portion, and an inlet for communicating the gas suction pipe SP to the side of the hard plate portion. 6b, a discharge port 6c communicating with the center of the wrap 6a in the center of the upper surface of the hard plate portion and discharging the compressed gas into the upper space of the casing 1, and at the edge of the hard plate portion, the main The gas passage groove 6d is formed to be connected to the gas communication groove 2d of the frame 2.

The orbiting scroll 7 forms an involute shape of a wrap 7a constituting two pairs of compression chambers P together with the wrap 6a of the fixed scroll 6 on the upper surface of the hard plate portion. In the center of the bottom surface, the above-described driving shaft 5 is coupled to form a boss 7b which receives the power of the driving motor 4. The boss portion 7b of the revolving scroll 7 is inserted into the boss accommodating groove 2b of the main frame 2 to make the revolving movement.

In the figure, reference numeral 3a denotes a shaft hole of the subframe, and 9 denotes a check valve.

The conventional high pressure scroll compressor as described above operates as follows.

That is, when power is applied to the drive motor 4, the turning shaft 6 is rotated with the rotor 4B of the drive motor 4 while the turning scroll 6 is rotated by the old dam ring 8 to the mainframe ( In the upper surface of 2), the pivoting movement is made by an eccentric distance, and the lap 7a of the swing scroll 7 continuously connects the pair of compression chambers P between the lap 6a with the fixed scroll 6. The compression chamber (P) decreases in volume while moving to the center by the continuous swing motion of the swing scroll (7) to suck and discharge the refrigerant gas.

In more detail, the refrigerant gas is discharged into the inner space of the upper side of the casing 1 through the discharge port 6c of the fixed scroll 6 so that the gas passage groove 6d of the fixed scroll 6 and the main frame 2 are discharged. After passing through the gas communication groove 2d, a part of it is discharged to the refrigeration cycle system after cooling the driving motor 4 through the axial flow path h of the stator 4A, but most of the gas communication groove of the main frame 2 is passed. Immediately after passing through 2d, it is discharged to the refrigeration cycle system through the gaseous discharge pipe DP.

On the other hand, the oil is sucked by the oil flow path 5a of the drive shaft 5 by the centrifugal force during the high speed rotation of the drive shaft 5 and is sucked to the upper end, and is scattered from the top of the drive shaft 5, and the main through the boss accommodation groove 2b. After lubricating the shaft hole (2a) of the frame (2) is recovered to the bottom of the casing (1) while the oil contained in the discharge gas discharged from the compression chamber (P) moves along with the discharge gas and is separated into a casing ( It was recovered to the bottom of 1).

However, in the conventional high pressure scroll compressor as described above, most of the refrigerant gas passing through the gas communication groove (2d) of the main frame (2) as described above is directly directed to the gas discharge pipe (DP) with oil. As it moves out and discharges, it causes oil shortages in the casing (1), which causes wear on various frictional parts of the compression unit, which greatly reduces the reliability of the compressor and reduces the performance of the entire set. There was a problem in that the efficiency of the motor is lowered due to failure to cool.

 The present invention has been made in view of the problems of the conventional scroll compressor as described above, by separating the gas and oil in the casing so that the gas is discharged after passing through the motor and the oil remains in the casing of the scroll compressor An object of the present invention is to provide an apparatus for reducing oil discharge.

In order to achieve the object of the present invention, a casing filled with a predetermined amount of oil; A fixed scroll fixedly installed in the casing; A rotating scroll which engages with the fixed scroll and forms a compression chamber together with the fixed scroll; And an inner space having an inlet and an outlet inside the casing, and a plurality of vertical walls forming upper and lower zigzag gas passages and a straight oil passage at the lower ends of the vertical walls. It provides an oil discharge reduction device of a scroll compressor comprising a; oil separation member having at least one horizontal wall.

EMBODIMENT OF THE INVENTION Hereinafter, the oil discharge reduction apparatus of the scroll compressor by this invention is demonstrated in detail based on one Example shown in an accompanying drawing.

Figure 2 is a cross-sectional view showing an example of the high-pressure scroll compressor of the present invention, Figure 3 is a "I-I" sectional view of Figure 2, Figure 4 is an expanded view showing the oil separation member of the present invention, Figure 5 is the present invention A partially developed view showing a modification of the oil separation member.

As shown in the drawing, the high pressure scroll compressor of the present invention includes a casing 1 which fills a predetermined amount of oil and maintains a high pressure state, a main frame 2 which is fixed to upper and lower sides of the casing 1 respectively, and a main body. The drive shaft 5 supporting the frame 2 and the subframe 3 to transmit the driving force of the drive motor 4 is fixedly installed on the upper surface of the main frame 2, and the gas suction pipe SP is directly coupled. To the fixed scroll (6) and the drive shaft (5) eccentrically coupled to the upper surface of the main frame (2) and engaged with the fixed scroll (6) while turning by the Oldham ring (8) two pairs of compression chambers ( The discharge port 6b of the fixed scroll 6 is fixedly installed on the inner circumferential surface of the casing 1 so as to communicate with the turning scroll 7 forming P) and the gas communication groove 2d of the main frame 2 to be described later. Oil separation member 10 and the oil separation member 10 for separating the refrigerant gas and oil from the discharge gas discharged through the) Five days a filtered communication with the oil outlet (11c) is moved to the lower half of the casing (1) comprises an oil guide plate (20) for recovery.

The gas suction pipe SP passes through the casing 1 and communicates with the suction port 6b of the fixed scroll 6 while the gas discharge pipe DP is in the lower half of the casing 1 with respect to the main frame 2. It is made by communicating so as to seal in the space.

The main frame 2 forms a shaft hole 2a for radially supporting the drive shaft 5 in the center thereof, and the boss portion 7b of the swing scroll 7 is pivoted in the upper half of the shaft hole 2a. The boss accommodating groove (2b) is formed to extend, and the upper surface edge has a predetermined internal volume with the rear surface of the turning scroll (7) and the annular back pressure space groove so that the refrigerant gas of the intermediate pressure side pressure is filled in the internal volume. (2c) is formed negatively.

In addition, the main frame 2 has its outer circumferential surface in close contact with the inner circumferential surface of the casing 1 to be fixedly welded, and the gas discharge pipe DP communicates with the opposite side of the fixed scroll 6 about the main frame 2. As installed, a gas communication groove 2d is formed in the outer circumferential surface of the main frame 2 so that the discharge gas containing oil discharged through the fixed scroll 6 can be led to the gas discharge pipe DP.

The oil separation member 10 has an inlet and an outlet as shown in FIGS. 3 and 4, and includes a cylinder 11 having an inner space such that the inlet and the outlet communicate with each other, and a vertical zigzag shape in the inner space of the cylinder 11. It consists of a plurality of vertical walls 12 which form the gas path F1, and the horizontal wall 13 which forms the linear oil path F2 in the lower end of the cylinder 11. As shown in FIG.

The cylinder 11 forms a common inlet 11a so that the inlet of the gas passage F1 and the oil passage F2 can be shared, and the common inlet 11a is the gas communication groove of the main frame 2. 2d) Communicate with outlet. In addition, the gas outlet 11b and the oil outlet 11c, which are the outlets of the gas passage F1 and the oil passage F2, are formed independently, and the gas outlet 11b communicates with the inner space of the casing 1. While forming, the oil outlet 11c is formed to communicate with the inlet of the oil guide plate 20.

In addition, the cylinder 11 may form an inner space using the inner circumferential surface of the casing 1, but as shown in FIG. 3, the oil separation member 10 may form an inner space using the outer circumferential body and the inner circumferential body. ) Can be manufactured in a single piece and can be easily bonded to the inner peripheral surface of the casing (1).

At least one oil through hole 13a is preferably formed in the horizontal wall 13 between the vertical walls 12 so that the oil filtered by the vertical wall 12 is collected in the oil path F2. In addition, the vertical wall 13 may be formed of a plate as shown in Figure 4, but in some cases may be formed of a mesh (mesh) as shown in FIG.

The oil guide plate 20 communicates the inlet to the oil outlet 11c of the oil separation member 10 as described above, while the outlet is connected to one side axial flow path h provided on the outer circumferential surface of the drive motor 4. It is to be connected to communicate with each other, in planar projection, the upper and lower ends are opened to form a substantially curved 'dijaza' cross-section shape having a front side and both sides.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the figure, reference numeral 3a denotes a shaft hole of the subframe, 4B a rotor, 6a a lap of the fixed scroll, 7a a lap of the turning scroll, and 9 a check valve.

The apparatus for reducing oil discharge of the high pressure scroll compressor of the present invention as described above has the following effects.

That is, while the drive shaft 5 rotates with the rotor 4B of the drive motor 4 by the applied power, the turning scroll 7 turns by an eccentric distance, and the turning scroll 7 is fixed scroll. Compression chamber P whose volume is narrowed while moving continuously with (6) is formed in pairs, and the refrigerant gas is suction-compressed and discharged.

In this case, the refrigerant gas contains oil and is discharged together, and the refrigerant gas and the oil are separated through the oil passage member 6d of the fixed scroll 6 and the gas communication groove 2d of the main frame 2. It flows into the common inlet 11a of 10). The refrigerant gas and the oil move in a zigzag shape along the vertical wall 12 provided in the inner space of the oil separation member 10, and heavy oil is separated from the gas, so that the horizontal wall 13 between the vertical walls 12. Only and the gas is circulated in the gas path (F1) is discharged into the casing (1) through the gas outlet (11b). On the other hand, the oil collects the oil through hole 13a drilled in the horizontal wall 13 into the oil furnace F2 and is discharged through the oil outlet 11c. The oil flows downward along the oil guide plate 20 provided on the inner circumferential surface of the casing 1 to be recovered to the casing 1 through the axial flow path h of the drive motor 4 while the gas is casing 1. ) Is discharged to the refrigeration cycle system through the gas discharge pipe (DP).

In this way, the oil is separated from the refrigerant gas discharged through the discharge port of the fixed scroll so that the refrigerant gas is discharged to the refrigeration cycle system, while most of the oil remains in the casing so that the inside of the compressor casing is damaged due to the oil shortage. The reliability of the motor can be prevented from deteriorating and the motor efficiency can be improved by cooling the driving motor with oil. In addition, the overall performance of the set employing the compressor can be improved by preventing the oil from being excessively discharged into the refrigeration cycle system.

The oil discharge reduction device of the scroll compressor according to the present invention is provided with oil separation member capable of circulating refrigerant gas and oil in a zigzag shape to separate gas and oil, thereby providing oil from the refrigerant gas discharged into the casing. Can be easily separated and this prevents oil from being discharged into the refrigeration cycle system, thereby increasing the reliability of the compressor, improving the motor efficiency by increasing the cooling effect of the motor, and preventing the blockage of the set from being blocked by oil. It can improve performance.

Claims (9)

delete A casing filled with a predetermined amount of oil; A fixed scroll fixedly installed in the casing; A rotating scroll which engages with the fixed scroll and forms a compression chamber together with the fixed scroll; And At least one or more oil walls formed at the bottom of the vertical wall and a plurality of vertical walls to form an inner space having an inlet and an outlet inside the casing, the upper and lower zig-zag-shaped gas path in the inner space; Oil discharge reduction device of a scroll compressor comprising a; oil separation member having a horizontal wall. The method of claim 2, The tubular body is configured to form a common inlet so that the inlet to the gas passage and oil path, and the oil discharge reduction device of the scroll compressor, characterized in that to form the gas outlet and the oil outlet which is the outlet to the gas passage and the oil passage independently. The method of claim 3, And said cylinder forms an inner space using the inner circumferential surface of the casing. The method of claim 3, The cylindrical body is an oil discharge reduction device of the scroll compressor, characterized in that to form an inner space using the outer peripheral body and the inner peripheral body. The method of claim 2, And an oil through hole is formed in the horizontal walls between the vertical walls to collect the filtered oil into the oil passage. The method of claim 6, The vertical wall is a flow rate reduction device of the scroll compressor, characterized in that the plate material. The method of claim 6, And the vertical wall is a mesh. The method of claim 3, The oil discharge reduction device of the scroll compressor, characterized in that the oil outlet of the oil separation member is installed in communication with the oil guide plate to guide the filtered oil to the lower half of the casing.

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