KR101334250B1 - Oil separator for scroll compressor - Google Patents

Abstract

The gas-liquid separator of the scroll compressor according to the present invention is formed so that the lower end of the baffle portion is formed at an intermediate height of the suction pipe or is inclined upward and downward so that a part of the refrigerant and oil sucked through the suction pipe do not collide with the baffle portion or are bisected. As the suction motor is cooled after being sucked without being directly sucked into the compression chamber, the efficiency of the motor may be greatly increased, thereby greatly improving the performance of the compressor.

Description

Oil separator of scroll compressor {OIL SEPARATOR FOR SCROLL COMPRESSOR}

1 is a longitudinal sectional view showing an example of the scroll compressor of the present invention;

2 is an enlarged cross-sectional view of part “A” in FIG. 1;

3 is an enlarged cross-sectional view of another embodiment of part “A” in FIG. 1;

Figure 4 is a perspective view showing another embodiment of the "A" part according to Figure 1,

5 is an enlarged cross-sectional view of a portion “A” according to FIG. 4;

6 is a cross-sectional view showing another embodiment of the portion “A” according to FIG. 4.

DESCRIPTION OF REFERENCE NUMERALS

10: casing 40: mainframe

42,50: baffle portion 42a, 50a: upper slope

42b, 50b: Lower slope SP: Suction tube

The present invention relates to a gas-liquid separation device of a scroll compressor.

Generally, a compressor is a device that converts mechanical energy into compressive energy of a compressive fluid. The compressor may be classified into a reciprocating type, a rotary type, a bed recognition, and a scroll type according to a compression method for the fluid.

The scroll compressor is provided with a drive motor for generating power in an inner space of the sealed casing and a compressor mechanism for compressing a refrigerant that is a compressive fluid by receiving power of the drive motor.

The compression mechanism is a fixed scroll and the swing scroll is engaged with each other to form a pair of compression chamber while the swing scroll is pivoting with respect to the fixed scroll, and the compression chamber is moved inward to continuously compress the refrigerant discharged Done.

Among the scroll compressors described above, the so-called 'low pressure scroll compressor' in which the suction pipe communicates with the inner space of the casing does not have a separate accumulator for separating gas refrigerant, liquid refrigerant and oil from the refrigerant passing through the refrigeration cycle. The gas-liquid separation device for separating gas refrigerant, liquid refrigerant and oil is installed inside.

However, the gas-liquid separator of the conventional scroll compressor is configured to form a baffle on the front surface of the fluid sucked only through the suction pipe so that the suctioned refrigerant and the whole oil collide with the baffle. Not only is it excessively increased, but the liquid refrigerant or oil separated therefrom moves only toward the outer circumferential surface of the driving motor, thereby lowering the cooling effect of the driving motor.

The present invention solves the problems of the gas-liquid separation device of the conventional scroll compressor as described above, the appropriate amount of gas refrigerant is sucked into the compression chamber from the refrigerant sucked into the inner space of the casing through the suction pipe at the same time the refrigerant and oil SUMMARY OF THE INVENTION An object of the present invention is to provide a gas-liquid separation device of a scroll compressor that is evenly distributed on an upper side of a drive motor to increase the cooling efficiency of the drive motor.

In order to achieve the object of the present invention, the casing is formed with a closed inner space to be connected to the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And a frame disposed between the drive motor and the compression unit to support the rotation shaft of the drive motor and at the same time to support the compression unit and to separate the gas and the liquid on the surface opposite to the outlet side of the suction pipe. It includes, the baffle portion is provided with a gas-liquid separation device of the scroll compressor is formed so that the end of the drive motor side is located within the inner peripheral surface range of the suction pipe.

In addition, the casing is formed with a closed inner space to be connected to the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And a frame disposed between the drive motor and the compression unit to support the rotation shaft of the drive motor and at the same time to support the compression unit and to separate the gas and the liquid on the surface opposite to the outlet side of the suction pipe. It includes, the baffle portion is provided with a gas-liquid separation device of the scroll compressor is formed so that the surface facing the outlet of the suction pipe is inclined toward the center of the drive motor and the center of the compression unit.

Hereinafter, the gas-liquid separator of the scroll compressor according to the present invention will be described in detail with reference to the embodiment shown in the accompanying drawings.

As shown in the drawing, the scroll compressor according to the present invention includes a casing 10 in which a predetermined amount of oil is filled and a suction pipe SP and a discharge pipe DP communicate with each other, and an upper side of the casing 10. It is composed of a drive motor 20 is installed in the generating a rotational force, and a compression mechanism 30 for compressing the refrigerant receiving the rotational force generated from the drive motor 20 is installed on the upper side of the casing (10). The compression mechanism 30 is a rotating wrap to be fixed to the upper surface of the main frame 40 to be described later and the fixed wrap of the fixed scroll 31 and the rotating wrap to form a plurality of compression chamber (P) Is provided is provided between the swinging scroll 32 and the pivoting scroll 32 to the upper surface of the main frame 40, the pivoting scroll 32 and the main frame 40 to prevent the rotation of the swinging scroll 32 Oldham's ring (33) to be rotated while being installed on the rear surface of the hard plate portion of the fixed scroll (31) and partitions the inside of the casing (10) into the suction space 14 and the discharge space (15) The low pressure separator 34 and the check valve 35 for opening and closing the discharge port 31c of the fixed scroll 31 to block the reverse flow of the discharge gas.

The casing 10 is formed in a cylindrical shape, the main body 11 having the drive motor 20 and the compression mechanism unit 30 installed thereon, and an upper cap 12 covering the upper and lower sides of the main body 11 to be sealed. ) And the lower cap 13.

The main frame 40 and the subframe 50 supporting the rotating shaft 23 of the drive motor 20 are fixedly installed on upper and lower sides of the main body 11, respectively, and the upper and upper caps of the main body 11 are fixed. The high and low pressure separating plate 34 is installed between the lower ends of the 12 so that the inner space of the casing 10 is divided into the suction space 14 and the discharge space 15. The suction pipe SP is connected to an upper portion of the main body 11 so as to communicate with the suction space 14 of the casing 10, and the discharge cap 15 of the casing 10 is connected to the upper cap 12. The discharge pipe (DP) is connected to communicate with.

The main frame 40 has a bearing hole 41 penetrating through the center thereof, and one side of the outer circumferential surface of the main frame 40, that is, the surface facing the outlet of the suction pipe SP, through the suction pipe SP. A baffle portion 42 is formed to collide with the sucked refrigerant and oil to separate gaseous gas refrigerant and liquid liquid refrigerant and oil.

The baffle portion 42 may be formed to be parallel to the vertical direction, as shown in Figure 2, the lower end may be formed in the range of the suction pipe (SP). More preferably, about half of the refrigerant sucked through the suction pipe SP hits the baffle portion 42 so that gas and liquid are separated, while about half passes through the baffle portion 42 and the driving motor ( The lower end of the baffle portion 42 may be formed at a height coinciding with the center line of the suction pipe SP so as to be guided to the upper space of the 20).

Meanwhile, the baffle portion may be manufactured separately and assembled to the inner circumferential surface of the casing. For example, as shown in Figure 3, the baffle portion 60 of the present embodiment is formed in a 'shaped' (C) cross-section shape of approximately both sides of the upper and lower sides is fixedly installed at a position opposite to the outlet of the suction pipe (SP). And as in the above-described embodiment is formed so that the lower end of the baffle portion 60 is located near the center line of the suction pipe (SP) while maintaining a proper suction amount of the coolant coolant and oil of the drive motor 20 Since it can be supplied directly to the upper space can greatly increase the efficiency of the drive motor 20 it can improve the performance of the compressor.

In the drawings, reference numeral 21 denotes a stator, 22 a rotor, 31a a fixed wrap, 31b a suction port, 31c a discharge port, and 32a a turning wrap.

The gas-liquid separator of the scroll compressor according to the present invention as described above has the following effects.

That is, when power is applied to the drive motor 20, the turning scroll 32 received the rotational force of the drive motor 20 by the old dam ring 33 by the eccentric distance from the upper surface of the main frame 40 You will be turning. In addition, a pair of compression chambers P continuously move between the fixed wrap 31a of the fixed scroll 31 and the swing wrap 32a of the swing scroll 32 while the swing scroll 32 is pivoting. ) Is formed, and the compression chamber (P) compresses the refrigerant sucked through the suction pipe (SP) while decreasing its volume while moving to the center by the continuous turning motion of the turning scroll (32). The compressed refrigerant is continuously discharged into the discharge space S2 of the casing 10 through the discharge port 31c of the fixed scroll 31 and then moved to the refrigeration cycle system through the discharge pipe DP. Repeat the process.

Here, the refrigerant sucked through the suction pipe (SP) hits the baffle portion 42 of the main frame 40 provided to face the outlet of the suction pipe (SP) to separate the gas refrigerant, liquid refrigerant and oil, Among them, the gas refrigerant flows into the compression chamber P through the suction port 31b of the fixed scroll 31, while the liquid refrigerant and the oil move to the upper space of the drive motor 20. At this time, the baffle portion 42 is formed at the same height as the lower end of the suction line (SP) of the center line about half of the refrigerant sucked through the suction pipe (SP) impinges on the baffle portion (42) While the gas refrigerant, the liquid refrigerant and the oil are separated, the other half is moved to the upper space of the driving motor 20 without being hit by the baffle portion 42.

In this way, while the amount of the refrigerant sucked into the compression chamber is properly maintained, the low-temperature refrigerant and oil sucked through the suction pipe are directly supplied to the upper space of the driving motor to cool the driving motor more efficiently. .

On the other hand, there is another embodiment of the gas-liquid separation device of the scroll compressor according to the invention as follows.

That is, in the above-described embodiment, the baffle portion is vertically formed in the vertical direction, but in the present embodiment, the baffle portion is formed to be inclined so that the refrigerant that collides with the baffle portion is bisected in the vertical direction.

For example, as shown in FIGS. 4 and 5, the collision surface of the baffle portion 42 is formed to be inclined toward the center of the compression unit 30 based on the middle height thereof, while the lower side of the baffle portion 42 is It may be formed to be inclined toward the center. In this case, the upper inclined surface 42a and the lower inclined surface 42b of the baffle portion 42 may be formed to be inclined at the same angle, but in some cases, the inclined angles of the upper inclined surface 42a and the lower inclined surface 42b are different from each other. It may be formed to. In this case, since the inclination angle of the upper inclined surface 42a is limited to the position of the suction port 31b of the fixed scroll 31, the inclined angle of the lower inclined surface 42b may be greater than that of the upper inclined surface 42a.

In addition, the baffle portion may be manufactured separately and assembled as shown in FIG. 6. Even in this case, the baffle portion 50 is formed such that the upper inclined surface 50a and the lower inclined surface 50b are inclined toward the center of the compression unit 30 and the center of the driving motor 20 at the intermediate height of the collision surface. It may be.

In this way, the baffle portion 42, 50 is a portion of the refrigerant sucked through the suction pipe (SP) hit the upper inclined surface (42a) (50a), the gas refrigerant, liquid refrigerant and oil is separated from the compression chamber While being sucked into (P), the rest moves to the upper space of the drive motor 20 along the lower inclined surfaces 42b and 50b to cool the drive motor 20, thereby greatly improving the efficiency of the motor, thereby improving the performance of the compressor. Can be greatly improved.

The gas-liquid separation device of the scroll compressor according to the present invention is formed so that the lower end of the baffle portion is formed at an intermediate height of the suction pipe or inclined upward and downward, so that a part of the refrigerant and oil sucked through the suction pipe does not hit the baffle portion. As the nutrient is sucked after cooling the driving motor instead of being directly sucked into the compression chamber, the efficiency of the motor may be greatly increased, thereby greatly improving the performance of the compressor.

Claims (7)

A casing in which a sealed inner space is formed to connect the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And A frame formed between the drive motor and the compression unit to support the rotation shaft of the drive motor and at the same time to support the compression unit and to separate the gas and the liquid on a surface of the suction tube opposite to the outlet side; and, The baffle portion is a gas-liquid separation device of the scroll compressor is formed so that the end of the drive motor side is located within the inner peripheral surface range of the suction pipe. The method of claim 1, The baffle portion is a gas-liquid separation device of the scroll compressor is formed such that the end of the drive motor side is located in the range of 1/2 each of the upper and lower sides relative to the center of the suction pipe. The method of claim 1, The baffle portion is a gas-liquid separation device of the scroll compressor, the surface facing the outlet of the suction pipe is inclined with respect to the direction perpendicular to the suction pipe. A casing in which a sealed inner space is formed to connect the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And A frame formed between the drive motor and the compression unit to support the rotation shaft of the drive motor and at the same time to support the compression unit and to separate the gas and the liquid on a surface of the suction tube opposite to the outlet side; and, The baffle portion is a gas-liquid separation device of the scroll compressor in which a surface facing the outlet of the suction pipe is inclined toward the center of the drive motor and the center of the compression unit. 5. The method of claim 4, The baffle portion is a gas-liquid separation device of the scroll compressor is formed so that the boundary of both inclined surfaces and the center line of the suction pipe. A casing in which a sealed inner space is formed to connect the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And And a baffle portion disposed at an inner circumferential surface of the casing opposite to the outlet of the suction pipe, the baffle portion having an end portion of the driving motor positioned within an inner circumferential surface of the suction pipe so as to separate gas and liquid from refrigerant and oil sucked through the suction pipe. Gas-liquid separation device. A casing in which a sealed inner space is formed to connect the suction pipe; A driving motor installed in the inner space of the casing to generate a driving force; A compression unit configured to receive a driving force of the driving motor to form a compression chamber in which a plurality of scrolls continuously move while performing a relative movement; And An inner circumferential surface of the casing opposite to the outlet of the suction pipe, a baffle portion formed to be inclined toward the center of the driving motor and the center of the compression unit so as to separate gas and liquid from the refrigerant and oil sucked through the suction pipe; Gas-liquid separator of scroll compressor.

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