KR19990032276A - Gas backflow prevention device of scroll compressor - Google Patents

Abstract

The present invention relates to a gas backflow prevention device of a scroll compressor, and in the related art, the reverse displacement moves up and down by the pressure difference between the compression chamber pressure and the discharge chamber pressure to open and close the gas discharge hole of the discharge cover. In the process of suddenly ejecting the refrigerant gas from the compression chamber, the descending reverse displacement rises and hits the bottom and side surfaces of the reverse displacement housing, resulting in shock noise and damage of the reverse displacement itself. Although the reverse displacement moves up and down in the vertical direction, there is a problem in that the gas discharge hole of the discharge cover is formed in the vertical direction, which is the movement direction of the reverse displacement, so that the discharge efficiency decreases as the flow resistance of the reverse displacement is generated. , In the present invention, the gas stream outlet of the fixed scroll is fixed to be sealed and the gas outlet hole is formed at the center thereof. A discharge cover for partitioning the portion and the low pressure portion, and a rotation opening / closing means hinged to the upper surface of the discharge cover to open and close the gas opening and closing, and forming a protrusion on the upper surface of the discharge cover. Is formed on the inclined surface, the refrigerant gas discharged from the compression chamber during the restarting of the compressor does not cause abnormal noise due to collision in the process of pushing up the reverse displacement, and also prevents the reverse displacement from being broken. Minimizing the flow resistance has the effect of improving the discharge efficiency of the compressor.

Description

Gas backflow prevention device of scroll compressor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a scroll compressor, and more particularly, to a gas backflow preventing device of a scroll compressor mounted on a discharge cover to prevent a high pressure refrigerant gas discharged from a compression chamber from being carried back into the compression chamber from the discharge chamber.

1, the upper and lower frames 2 and 3 are fixed by welding between upper and lower frames 2 and 3 on the upper and lower inner circumferential surfaces of the sealed container 1, as shown in FIG. The stator 4 is fixed to the drive shaft, the rotor 5 is inserted into the inner circumference of the stator 4, and the drive shaft 6 in which the oil passage 6a is formed at the center of the rotor 5. ) Is press-fitted to penetrate the center of the upper frame (2), the rotational scroll (7) formed with a wrap (7a) in the involute curve on the upper surface of the upper frame (2) is eccentric with the drive shaft (6) The fixed scroll 8 which is engaged with the wrap of the swinging scroll 7 to form a compression chamber is mounted on the upper side of the swinging scroll 7 and fastened to the edge of the upper frame 2. Between the frame 2 and the turning scroll 7, an old dam ring 9, which is a rotation preventing mechanism, is joined.

In addition, the upper side of the fixed scroll (8) is a discharge cover 10 for partitioning the high pressure portion and the low pressure portion is sealed, the reverse flow of the discharge gas to the upper surface of the gaseous discharge hole (10a) formed in the central portion of the discharge cover 10 The reverse displacement 11 which prevents is mounted, and the reverse displacement 11 is sealed by the reverse displacement housing 12 in which the gas discharge hole 12a was formed in the center, and is formed in the upper side of the reverse displacement housing 12. On one side of the discharge chamber, the discharge tube 13 communicates with the sealed container 1.

The reverse side 11 has a plurality of exhaust grooves (11a) is formed in the edge, the periphery of the gas exit hole (12a) of the reverse side of the housing 12, the entire upper side of the reverse side (11) reverse displacement housing It protrudes convexly inward so as to prevent close contact with the bottom of 12, and several gas discharge holes 12a are formed in the recessed edge of the reverse side housing 12, too.

In the drawings, reference numeral 14 denotes an intake pipe, and 15 represents a bypass valve.

The scroll compressor configured as described above rotates the drive shaft 6 while the rotor 5 rotates inside the stator 4 by an applied power source, and the drive shaft 6 eccentrically rotates the scroll scroll 7. The eccentric rotation is made by the distance, wherein the turning scroll (7) by the Oldham ring (9) is a turning movement at a distance as far as the turning radius from the center of the axis, the turning movement of the turning scroll (7) The compression chamber is formed between the wraps 7a and 8a, and the compression chamber is moved to the center by the continuous swinging movement to reduce the volume to further compress the sucked refrigerant gas. The gaseous exit hole 10a of the discharge cover 10 is pushed by the reverse side edge 11 which is ejected through the gaseous outlet 8b of the fixed scroll 8 and is pushed up by the compressed gas. Eventually the compressed gas is discharged It was discharged to the pipe 13.

Looking at the process of the reverse displacement is operated in the entire operation region of the compressor as follows.

As shown in FIG. 2B, first, during normal operation of the compressor, the pressure Pdc of the gas discharged from the compression chamber is always greater than the pressure Pd of the discharge chamber so that the force applied to the reverse displacement 11 is always upward. (The bottom of the reverse displacement housing 12), the reverse displacement 11 pushed up by this force is always stuck to the bottom surface of the reverse displacement housing 12, and eventually the gas discharge hole (10) of the discharge cover 10 10a) is open.

On the other hand, when the compressor is stopped, the reverse valve 11 is placed on the upper surface of the discharge cover 10 by its own weight to block the gaseous discharge hole 10a, which is a gas discharged from the compression chamber. This is because the pressure Pdc is still kept smaller than the pressure Pd 'of the discharge chamber.

On the other hand, when the stationary compressor is restarted, the pressure in the compression chamber gradually increases, and at some point, the pressure Pdc 'of the compression chamber becomes larger than the pressure Pd' of the discharge chamber. While the pressure Pdc 'at the start of discharge becomes larger than the pressure Pd' of the discharge chamber, the high pressure refrigerant gas suddenly pushes the reverse displacement 11 and the reverse displacement 11 rises. The gas discharge hole 10a of the discharge cover 10 was opened.

However, in the conventional scroll compressor in which the reverse displacement 11 is included in the reverse displacement housing 12 and placed on the upper surface of the discharge cover 10 as described above, the reverse displacement 11 is the compression chamber pressure Pp. Opening and closing the gaseous outlet hole 10a of the discharge cover 10 while moving up and down by a pressure difference between the discharge chamber pressure Pd and a high pressure refrigerant gas from the compression chamber when restarting after the compressor is stopped. In the sudden ejection process, there was a problem in that a shock sound was generated while hitting the bottom of the reverse displacement housing 12 while the reverse displacement 11 descended to the upper surface of the discharge cover 10 suddenly.

In addition, despite the vertical displacement 11 moves vertically, the gas discharge hole 10a of the discharge cover 10 is formed in the vertical direction which is the movement direction of the reverse displacement 11, and thus the reverse displacement ( There was also a problem that the discharge efficiency is lowered as the flow path resistance of 11) is generated.

Accordingly, the present invention has been made in view of the problems of the conventional scroll compressor as described above, and the scroll which does not generate abnormal noise due to a collision in the process of boosting the reverse displacement of the refrigerant gas discharged from the compression chamber when the compressor restarts. It is an object of the present invention to provide a gas backflow prevention device for a compressor.

Another object of the present invention is to provide a gas backflow preventing device of a scroll compressor which can improve the discharge efficiency of the compressor by minimizing the flow path resistance of the reverse displacement.

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

2A and 2B are a longitudinal sectional view and a P-V diagram showing a state of operation of a reverse displacement according to a pressure state of a compression and discharge chamber in a conventional scroll compressor;

Figure 3 is a perspective view showing a gas backflow preventing device of the scroll compressor according to the present invention.

Figure 4 is a longitudinal sectional view showing the operation of the gas backflow prevention apparatus of the scroll compressor according to the present invention.

Explanation of symbols on the main parts of the drawings

110: discharge cover 110a: gaseous venting

111: protrusion 120: opening and closing plate

121: hinge stone 122: hinge hanger

In order to achieve the object of the present invention, the gas outlet of the fixed scroll is fixed so as to seal and the gas outlet hole is formed in the center to partition the high pressure portion and the low pressure portion, and the hinge is coupled to the upper surface of the discharge cover the gas There is provided a gas backflow preventing apparatus for a scroll compressor, comprising a rotation opening and closing means for opening and closing the discharge hole in a completely open / closed manner.

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

3 is a perspective view showing a gas backflow preventing apparatus of the scroll compressor according to the present invention, Figure 4 is a longitudinal cross-sectional view showing the operation of the gas backflow preventing apparatus of the scroll compressor according to the present invention.

As shown in the present invention, the gas backflow prevention device of the scroll compressor according to the present invention includes a discharge cover 110 partitioning the high pressure part and the low pressure part on the upper surface of the fixed scroll 8, and the gas outlet 8b of the fixed scroll 8. Is fastened and fixed to seal the upper surface of the discharge cover 110, the opening and closing plate 120 is hingedly configured to completely close the gas discharge hole (110a) formed in the discharge cover 110.

In the center portion of the discharge cover 110 is formed obliquely inclined upwardly projecting portion 111, the one side inclined surface of the protrusion 111 is formed gas opening hole (110a) is completely closed by the opening and closing plate 120 do.

One end of the opening and closing plate 120 is formed to be wider than the gas-outlet hole 110a of the discharge cover 110, while the hinge protrusions 121 are formed on both side cross-sections of the middle portion, respectively, the respective hinge protrusions 121. The hinge hook piece 122 is pivotally fitted to one side of the protrusion 111 of the discharge cover 110.

Here, the opening and closing plate 120 is preferably formed of a light material such as synthetic resin so as to be smoothly rotated by the compressed gas, it is also fully flipped when opening the gas outlet hole (110a) is not re-rotated during the suction stroke It is preferable that the intermediate portion bends to such an extent that it does not generate flow resistance so as to prevent it.

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

In the scroll compressor equipped with a gas backflow prevention apparatus according to the present invention as described above, the basic suction and compression and discharge process of the compressor is the same as the conventional one, so that the detailed description is omitted, instead of the gas backflow prevention that is the subject of the present invention The operation of the device is as follows.

That is, during the normal operation of the compressor, the high-pressure refrigerant gas is discharged through the gas outlet 8b of the fixed scroll 8 and the gas outlet hole 110a of the discharge cover 110, and into the compression chamber. Since the lower pressure Pdc of the reverse displacement discharged from the upper pressure Pd becomes relatively high pressure, the opening and closing plate 120 is always pushed out, and the opening and closing plate 120 has a discharge cover at the center thereof. The opening and closing plate 120 is pushed while rotating around the hinge protrusion 121 by the compressed gas discharged through the gas discharge hole 110a by being hinged to the 110 and eventually the gas discharge hole 110a of the discharge cover 110. This will be opened.

At this time, since the center portion of the opening and closing plate 120 is hinged to the discharge cover 110, the other end of the opening and closing plate 120 is caught on the other inclined surface of the discharge cover 110 when the opening and closing plate 120 is stopped It is prevented not to return.

On the other hand, at the moment when the compressor in normal operation is temporarily stopped, the lower pressure Pdc of the opening / closing plate 120 becomes relatively lower than the upper pressure Pd, and thus the opening / closing plate 120 is self-weighted. And it is pressed by the upper pressure (Pd) backflow is to close the gas outlet hole (110a) while rotating in the opposite direction to the normal operation around the hinge projection (121).

Next, when the stopped compressor is restarted, the pressure Pdc 'at the time of discharging the refrigerant gas discharged from the compression chamber becomes instantaneously higher than the pressure Pd' of the discharge chamber, and thus the discharge cover 110 The opening and closing plate 120 mounted on the upper surface of the opening is suddenly pushed out by the sudden discharge of the refrigerant gas, the opening and closing plate 120 is rotated around the hinge projection (121) is rolled up gaseast hole (110a) Will be opened.

At this time, since the gaseous discharge hole 110a of the discharge cover 110 is formed to be inclined at a predetermined angle, the high pressure refrigerant gas is discharged obliquely by the gaseous discharge hole 110a of the discharge cover 110, and thus the refrigerant gas discharged. Of course, the flow resistance of the opening and closing plate 120 is minimized, and the other end of the opening and closing plate 120 is opened, that is, the end which is not in contact with the gas outlet hole 110a strongly strikes the upper surface of the discharge cover 110. Will be prevented.

As described above, the gas backflow prevention apparatus of the scroll compressor according to the present invention includes a discharge cover which is fixed to seal the gas discharge outlet of the fixed scroll and has a gas discharge hole formed at the center thereof to partition the high pressure portion and the low pressure portion, It consists of a rotation opening and closing means hinged to the upper surface to completely open and close the gas discharge hole, and by forming a protrusion on the upper surface of the discharge cover to form a gas discharge hole on the inclined surface, from the compression chamber when the compressor is restarted In the process of pushing up the reverse displacement, the discharged refrigerant gas not only prevents abnormal noise caused by collision, but also prevents the reverse displacement from being broken, and minimizes the flow resistance of the reverse displacement, thereby improving the discharge efficiency of the compressor. It works.

Claims (4)

A gas discharge hole is fixed to seal the gas flow outlet of the fixed scroll, and a gas discharge hole is formed at the center thereof, and a discharge cover for dividing the high pressure part and the low pressure part is hinged to an upper surface of the discharge cover, and the opening and closing of the gas opening hole is opened and closed completely. Gas backflow prevention device of a scroll compressor, characterized in that configured as a means. According to claim 1, The rotation opening and closing means of the opening and closing plate is formed in one end is wider than the gas discharge hole of the discharge cover and the hinge dol is formed on both sides of the intermediate portion, and both ends of the hinge dol of the opening and closing plate to be rotatable Gas backflow prevention device of the scroll compressor, characterized in that consisting of a hinge hook piece which is coupled to the discharge cover. 3. The gas backflow preventing apparatus of claim 2, wherein the opening and closing plate is bent such that the intermediate portion does not generate flow resistance so as to prevent the gas opening from being fully flipped when opening. The scroll compressor according to claim 1, wherein the central portion of the discharge cover is inclined obliquely to form a convex protrusion upward, and a gas discharge hole is completely formed on one side of the protrusion by the rotation opening and closing means. Gas backflow prevention device.