KR0130248Y1 - Horizontal type scroll compressor - Google Patents

Abstract

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Description

Horizontal Scroll Compressor

The present invention relates to a horizontal scroll compressor, and more particularly, to a horizontal scroll compressor for installing the discharge pipe for discharging the refrigerant to the oil storage unit of the scroll compressor perpendicular to the oil surface so that the oil does not go out to the system.

In the horizontal scroll compressor according to the prior art, as shown in FIG. 1, the scroll compressor 1 is divided into three parts. First, the suction pipe 5 connected to the outside is provided at the lower left of the compression unit 2. And a compression chamber (13) formed by a fixed scroll (6) and an orbiting scroll (7) having an involute wrap, wherein the fixed scroll (6) is fixed and the orbiting scroll (7) is rotated. It is designed to perform compression while pivoting with a certain amount of eccentricity.

On the opposite side of the turning scroll (7) wrap (7a) there is a drive shaft (8), the motor portion (3) and the motor portion (3) comprising a rotor (9) and a stator (10) around the drive shaft (8). ) And the oil storage unit 4 has a separation plate 11, and the separation plate 11 has a gas passage 11a through a refrigerant and a gas-liquid separation passage 11b and a freezer flow passage 11c at a lower portion thereof. The discharge pipe 12 which sends a refrigerant | coolant to a system is comprised on the opposite side to the gas path 11a.

The flow of the refrigerant exits the discharge port 14 of the compression chamber 13 and exits the discharge pipe 12 through the gas passage 11a of the compression unit 2, the motor unit 3, and the oil storage unit 4. Consists of.

In addition, the compression unit 2, the motor unit 3 and the oil storage unit 4 are wrapped in a compressor case 15. In the drawings, reference numeral 16 denotes a back pressure hole, 17 denotes a back pressure chamber, and 18 denotes an oil.

The conventional horizontal scroll compressor configured as described above is surrounded by the fixed scroll 6 and the turning scroll 7 through the suction pipe 5 in (2a) (2b) (2c) (2d) of FIGS. The refrigerant sucked into the space is compressed while being reduced to the center of the fixed scroll 6 through the swinging motion of the swinging scroll 7 and discharged into the case 15 through the discharge port 14. The discharged refrigerant gas flows toward the discharge pipe 12 through the gas passage 11a through the motor unit 3 and exits the system.

2 (a), 2b, 2c, and 2d of FIG. 2 show an operation principle of an oil storage unit when a conventional horizontal scroll compressor is operated, and a differential pressure method is used to lubricate each friction unit.

Fig. 2 (2a) shows the compressor 1 when stopped, and oil is filled in the compressor 1 while maintaining a constant surface. At this time, it is good to keep the oil level below the rotating part of the motor to reduce the stirring loss during the operation of the compressor (1). In 2b, when the compressor 1 is driven at a low speed, the discharged refrigerant gas passes through the gas passage 11a, whereby the oil level of the oil storage part 4 rises slightly. (2c) shows constant speed operation, and the oil level rises slightly more than at low speed. In FIG. 2d, the oil level of the oil storage unit 4 is further increased during the high speed operation, and some of the discharged refrigerant flows into the suction pipe 12 through the oil passage under the compressor 1.

Thus, by using the oil level change of the oil storage unit 4 in accordance with the rotational speed of the scroll it is possible to supply the appropriate amount of oil to each friction portion.

However, in such a horizontal scroll compressor, when the motor rotates at a high speed, the height of the oil may increase in the oil storage unit 4 and may rise to the position of the discharge pipe 12. In this case, the oil may be discharged in a large amount together with the refrigerant, resulting in a problem that the performance of the system itself of the scroll compressor (1).

Accordingly, an object of the present invention is to provide a horizontal scroll compressor in which a discharge pipe for discharging refrigerant to the outside of the scroll compressor is installed perpendicular to the oil surface so that refrigerant mixed with oil does not go out of the system.

1 is a cross-sectional view showing the internal structure of a conventional horizontal scroll compressor.

Figure 2 shows the operation principle of the oil storage unit when the conventional horizontal scroll compressor is operated,

2a is a state when the scroll compressor is stopped.

2b is a low speed state of the scroll compressor.

2c is the state at the constant speed of the scroll compressor.

2d is a high speed state of the scroll compressor.

Figure 3 is a cross-sectional view showing the internal structure of the horizontal scroll compressor of the present invention.

* Explanation of symbols for main parts of the drawings

20: scroll compressor 27: oil storage unit

28: discharge pipe

In order to achieve the object of the present invention, a discharge pipe for discharging the refrigerant to the outside of the compressor in the oil storage unit of the horizontal scroll compressor is configured at a proper position perpendicular to the oil surface of the oil storage unit to provide a horizontal scroll compressor.

Hereinafter, the horizontal scroll compressor according to the present invention will be described according to an embodiment shown in the accompanying drawings.

Figure 3 shows a cross-sectional view showing the internal structure of the horizontal scroll compressor of the present invention.

As shown in the drawing, the horizontal scroll compressor of the present invention is largely divided into three parts as shown in FIG. That is, the refrigerant introduced through the suction pipe 21 supplies oil to the compression unit 24 compressed by the fixed scroll 22 and the revolving scroll 23, the motor unit 26 rotating the drive shaft 25, and oil. It is composed of an oil storage unit (27).

The discharge pipe 28 for discharging the refrigerant to the oil storage unit 27 of the horizontal scroll compressor 20 to the outside of the compressor 20 is configured at a proper position perpendicular to the oil surface of the oil storage unit 27. In the drawings, reference numeral 29 denotes an outlet, 30 a separator, and 31 a gas passage.

Referring to the effect of the horizontal scroll compressor according to the present invention configured as described above are as follows.

In the horizontal scroll compressor 20 according to the present invention, the position of the discharge pipe 28 in FIG. 3 is provided in a direction perpendicular to the oil surface of the oil storage part 27. When the discharge pipe 28 is located in this manner, oil discharge that may be caused by the oil level of the oil storage part 27 being raised when the motor rotates at a high speed in the scroll compressor 20 may be minimized. That is, as the oil dissolved in the discharge refrigerant gas passes through the discharge pipe 28 position of the present invention, the oil does not flow into the system by its own gravity, and the oil storage unit 27 inside the compressor 20 does not flow. ).

As described above, in the horizontal scroll compressor according to the present invention, the oil storage unit 27 includes a discharge pipe 28 for discharging the refrigerant to the outside of the compressor 20 in the oil storage unit 27 of the horizontal scroll compressor 20. Because the oil storage part 27 does not reach the discharge pipe 28 height even when the motor rotates at a high speed at a proper position perpendicular to the oil level of the oil), the oil and the rotting refrigerant do not go out of the system. Even if it enters this discharge pipe 28, it will fall by oil gravity and the performance of the scroll compressor 20 can be improved.

Claims (1)

And a discharge pipe for discharging refrigerant to the outside of the compressor in an oil storage unit of the horizontal scroll compressor at an appropriate position perpendicular to the oil surface of the oil storage unit.