KR100343687B1 - Apparatus for preventing superheating of fixing-scroll in scroll compressor - Google Patents

Abstract

The present invention relates to a discharge gas cooling device of a scroll compressor, the present invention is provided with a fixed scroll and a rotating scroll to form a plurality of compression chamber while continuously moving in the interior of the casing, the inside of the casing on the back of the fixed scroll And a discharge cover for dividing the pressure into the high pressure portion and the low pressure portion, and the fixed scroll so that the low-temperature suction gas filled in the low pressure portion of the casing comes into contact with the inside of the fixed scroll to cool the fixed scroll and then flow into the compression chamber. At least one gas through-hole is formed in the through-hole, so that the low-temperature refrigerant gas filled in the low pressure portion of the casing is in wide contact with the fixed scroll to cool the discharge scroll passing through the fixed scroll and the discharge port of the fixed scroll. , Through the carbonization of the oil discharged with the discharge gas through the tip chamber The sun, etc. can be prevented.

Description

Discharge gas cooling device for scroll compressor {APPARATUS FOR PREVENTING SUPERHEATING OF FIXING-SCROLL IN SCROLL COMPRESSOR}

The present invention relates to a fixed scroll of a scroll compressor, and more particularly, to a discharge gas cooling apparatus of a scroll compressor for guiding suction gas on the low pressure side into the fixed scroll to cool the fixed scroll.

Generally, a compressor converts mechanical energy into compressive energy of a compressive fluid, which is divided into reciprocating, scrolling, and centrifugal (commonly referred to as turbo) and vane (commonly referred to as rotary). .

Among the scroll compressors, unlike the reciprocating type using the linear motion of the piston, the scroll compressor sucks and discharges the gas by using a rotating body such as a centrifugal type or a vane type.

The scroll compressor is divided into a low pressure scroll compressor or a high pressure scroll compressor according to whether the suction gas or the discharge gas is filled in the casing.

In the low pressure scroll compressor, as shown in FIG. 1, the upper frame 2 and the lower frame 3 are respectively fixed to upper and lower sides of the inner circumferential surface of the casing 1 filled with oil to an appropriate height, and the upper frame 2 A driving motor 4 consisting of a stator 4A and a rotor 4B is fixedly installed between the lower frame 3 and the lower frame 3, and a driving shaft 5 is formed at the center of the rotor 4B of the driving motor 4. The pivoting frame 6 is press-fitted through the upper frame 2, and the upper frame 2 is formed on the upper surface with a wrap 6a in an involute curve to be eccentrically coupled to the drive shaft 5. A fixed scroll which is rotatably mounted and provided with an involute curve wrap 7a formed on the upper surface of the swing scroll 6 to be engaged with the wrap 6a of the swing scroll 6 to form a plurality of compression chambers ( 7) is fixed to the edge of the upper frame (2), the casing (top) of the fixed scroll (7) 1) The discharge cover 8 which divides the inside into the high pressure part and the low pressure part is fixed to the inner peripheral surface of the casing 1, and the check valve which prevents reverse flow of discharge gas in the upper surface of the gaseous discharge hole 8a of the discharge cover 8 is carried out. The assembly 9 is provided.

A suction pipe SP communicating with a suction path (not shown) of the fixed scroll 7 is installed at the low pressure part side of the casing 1, and the refrigerant compressed through the final compression chamber at the center of the fixed scroll 7 is compressed. A discharge port 7b for discharging the gas to the high pressure part side is formed, and a discharge pipe DP communicating with the refrigeration cycle apparatus is provided on the high pressure part side of the casing 1.

In the figure, 5a denotes an oil passage, 7b a discharge port, 9A a valve housing, and 9B a check valve.

The conventional scroll compressor configured as described above operates as follows.

That is, while the rotor 4B rotates together with the drive shaft 5 inside the stator 4A by the applied power, the turning scroll 6 is eccentrically rotated by an eccentric distance, and the turning scroll ( 6) is rotated at a distance separated by the turning radius from the origin of the axis by the Old Daming (unsigned), and a plurality of compression chambers are formed between the two wraps 6a and 7a with the fixed scroll 7. . The compression chamber is moved to the center by the continuous turning movement of the turning scroll 6 to reduce the volume to further compress the sucked refrigerant gas, and the compressed high-pressure refrigerant gas is discharged from the fixed scroll 7. It was discharged to the inside of the discharge cover 8 through 7b) and then discharged to the outside of the compressor via the gaseous discharge hole 8a of the discharge cover 8 and the discharge pipe DP.

However, in the conventional scroll compressor as described above, the refrigerant gas is sucked to the casing (1) at a low temperature, and is discharged while being superheated at a high temperature while being compressed in the compression chamber between the swing scroll (6) and the fixed scroll (7) The reliability of the compressor is reduced by further carbonizing the oil contained in the refrigerant gas or by dissolving the tip seal inserted into the end faces of the respective wraps 6a and 7a. There was a problem of shortening the life of the system.

The present invention has been made in view of the problems of the conventional scroll compressor as described above, and the scroll compressor that can prevent the discharge gas is overheated by cooling the fixed scroll of the low-temperature refrigerant gas filled in the low pressure portion of the casing It is an object of the present invention to provide a discharge gas cooling device.

1 is a longitudinal sectional view showing an example of a conventional scroll compressor.

Figure 2a is a longitudinal sectional view showing a compression mechanism of the conventional scroll compressor.

Figure 2b is a plan view showing a fixed scroll of the conventional scroll compressor.

Figure 3a is a longitudinal sectional view showing the compression mechanism of the scroll compressor of the present invention.

Figure 3b is a plan view showing a fixed scroll of the scroll compressor of the present invention.

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

5: drive shaft 5a: oil flow path

6: turning scroll 6a: lap

8: discharge cover 10: fixed scroll

11: wrap 12: discharge port

13: gas through hole SP: suction pipe

DP: discharge tube

In order to achieve the object of the present invention, a fixed scroll and a rotating scroll is provided to form a plurality of compression chambers while continuously moving inside the casing, and the discharge of partitioning the inside of the casing into a high pressure section and a low pressure section on the back of the fixed scroll. A cover is provided, and at least one gas through hole is formed in the fixed scroll so that the low temperature suction gas filled in the low pressure portion of the casing comes into contact with the inside of the fixed scroll to cool the fixed scroll, and then flows into the compression chamber. A discharge gas cooling device of a scroll compressor is provided.

Hereinafter, the discharge gas cooling apparatus of the scroll compressor according to the present invention will be described in detail with reference to the embodiment shown in the accompanying drawings.

Figure 3a is a longitudinal sectional view showing a compression mechanism of the scroll compressor of the present invention, Figure 3b is a plan view showing a fixed scroll of the scroll compressor of the present invention.

As shown in the scroll compressor equipped with the discharge gas cooling apparatus according to the present invention, the upper frame 2 and the lower frame (not shown) in the interior of the casing 1, respectively, on the upper and lower sides of the drive motor 4, respectively. It is fixedly installed, the drive shaft (5) penetrates the upper frame (2) to the rotor of the drive motor (4), the wrap (6) in the upper end of the drive shaft (5) in the involute curve Swivel scroll 6 is formed and is mounted so as to slide on the upper surface of the upper frame (2), the upper surface of the swing scroll 6 is engaged with the wrap (6a) of the swivel scroll (6) a plurality of compression The fixed scroll 10 is formed to be fastened to the edge of the upper frame 2 is formed, the wrap 11 of the involute curve to form a seal, the upper portion of the fixed scroll (10) inside the casing (1) And a discharge cover 8 partitioned into a low pressure portion, and the gas cylinder of the discharge cover 8 is provided. The check valve assembly 9 is installed on the upper surface of the air outlet 8a to prevent the reverse flow of the discharge gas.

As described above, the fixed scroll 10 has a wrap 11 which is engaged with the swinging scroll 6 to form a compression chamber on the bottom side thereof, and in the center thereof is a refrigerant gas which is communicated with the final compression chamber and compressed. The discharge port 12 which discharges to the high pressure part side is formed, and the gas through-hole which the low temperature suction gas filled in the low pressure part side of the casing 1 passes in the back side of the fixed scroll 10 which is the peripheral part of the discharge port 12 passes. Several (13) are formed (four in the figure). It is preferable that the gas through hole (13) is different from the inlet and the outlet as shown in Fig. 3b because the refrigerant gas can flow smoothly.

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

In the figure, reference numeral 9A denotes a valve housing, and 9B denotes a check valve.

The general operation of the scroll compressor of the present invention as described above is similar to the conventional.

That is, while the drive shaft 5 rotates together with the rotor rotated by the applied power source, the rotating scroll 6 is eccentrically rotated by an eccentric distance, but the rotating scroll 7 is undamaged (unsigned). The rotational movement is made at a distance away from the shaft center by the turning radius, and a plurality of compression chambers are formed between the two wraps 6a and 11 with the fixed scroll 10 to suck and compress the refrigerant gas to fix the scroll 10. Discharge to the discharge port 12 of.

Here, the low pressure refrigerant gas is sucked to the low pressure side of the casing (1) through the suction pipe (SP) and flows into the compression chamber during the swinging movement of the swinging scroll (6), a part of which is the gas cylinder of the fixed scroll (10) While passing through the ball 13, the relatively high fixed scroll 10 is cooled.

In addition, the gas through hole 13 is formed adjacent to the discharge port 12 of the fixed scroll 10 to reduce the temperature of the discharge gas discharged through the discharge port 12.

Thus, when the gas through hole 13 through which the low-temperature suction gas can pass is formed on the rear side of the fixed scroll 10 on which the discharge port 12 is formed, the low-temperature suction gas is fixed before being sucked into the compression chamber. The inside of the scroll 10 is circulated to prevent the fixed scroll 10 from overheating, and to prevent carbonization of the oil contained in the discharge gas. In particular, when the compressor is continuously operated at a high compression ratio, the temperature of the discharge gas may be excessively overheated, but the discharge gas is cooled to a certain degree by the low temperature refrigerant gas passing through the gas through hole 13 of the fixed scroll 10. Since overheating is prevented, the reliability of the high compression ratio continuous operation of the compressor is improved.

The discharge gas cooling device of the scroll compressor according to the present invention includes a fixed scroll and a rotating scroll for compressing the refrigerant gas sucked into the low pressure portion, and the driving motor for driving the rotating scroll, wherein the casing is divided into a high pressure portion and a low pressure portion. The low pressure part of the casing is disposed on the low pressure part side by forming at least one gas through hole in the fixed scroll so that the low temperature suction gas filled in the low pressure part of the casing comes into contact with the inside of the fixed scroll. The low temperature refrigerant gas filled in contact with the fixed scroll to cool the fixed gas and the discharge gas passing through the discharge port of the fixed scroll, carbonization of the oil discharged with the discharge gas through the melting of the tip chamber Can be prevented in advance.

Claims (1)

Fixed scrolls and orbiting scrolls are provided to form a plurality of compression chambers while continuously moving inside the casing, and a discharge cover for partitioning the inside of the casing into a high pressure section and a low pressure section is provided on the rear surface of the fixed scroll. At least one gas through-hole is formed through the fixed scroll so that the low-temperature intake gas filled in the low pressure portion of the casing is in contact with the inside of the fixed scroll to cool the fixed scroll and then flow into the compression chamber. Discharge gas cooling device of the scroll compressor.