KR20000056524A - Muffler apparatus of scroll compressor - Google Patents

Abstract

PURPOSE: A muffler device of a scroll compressor is provided to reduce noise of a compressor by having a structure for minimizing noise of refrigerant gas discharged through a discharge hole formed at the center of a fixed scroll. CONSTITUTION: In a muffler device of a scroll compressor, a discharge hole(51) is formed in the center of a fixed scroll(50) to discharge refrigerant gas, a muffler hole(53) is formed on a path of the discharge hole in a cylindrical groove shape having a diameter larger than the discharge hole, and a net type refrigerant gas noise adsorption element(55) of a ring shape is inserted into the muffler hole for adsorbing noise of the refrigerant gas, wherein the discharge hole is mounted with a check valve(57) for alternatively opening and closing an outlet part(51') of the discharge hole by moving vertically with a predetermined distance and a stopper(59) formed above the check valve for limiting the lifting distance of the check valve.

Description

Muffler apparatus of scroll compressor

The present invention relates to a scroll compressor, and more particularly, to a muffler device of a scroll compressor having a structure capable of minimizing noise of refrigerant gas discharged through a discharge port formed at a center of a fixed scroll.

In a typical scroll compressor, a fixed scroll having an involute wrap and an orbiting scroll are engaged to face each other, whereby a plurality of large and small crescent shaped compression chambers are formed by the fixed scroll and the orbiting scroll. As the yarn moves toward the center of the fixed scroll and the swing scroll according to the swing motion of the swing scroll, its volume is gradually reduced to compress the refrigerant.

Referring to Figure 1 in more detail, first the refrigerant introduced into the compressor through the suction pipe (5) through the suction port formed on one side of the fixed scroll (1) and the rotating scroll ( It is supplied to the inside of 3). At this time, a part of the refrigerant is introduced into the compression chamber formed on the suction port side of the fixed scroll (1), the other part is introduced into the compression chamber formed on the opposite side 180 ° along the guide passage of the fixed scroll, It begins to compress symmetrically on both sides.

At the same time, when electricity is supplied to the stator 7 of the motor, the inner rotor 9 is rotated by the flow electricity. The crankshaft 11 is press-fitted to the center of the rotor 9 so that the crankshaft 11 rotates together with the rotor 9 and is coupled to the eccentric end of the crankshaft 11. (3) will be turning.

At this time, the turning scroll (3) is not rotating by the old dam ring 15 is seated between the main frame (13) and the turning scroll (3), the crankshaft (11) and the top The lower end is supported by the main frame 13 and the subframe 17, respectively.

Subsequently, as the compression chamber P moves toward the center portion by the mutual movement of the fixed scroll 1 and the turning scroll 3, its volume is gradually reduced to compress the refrigerant in the compression chamber. Thus, the refrigerant compressed by the fixed scroll (1) and the turning scroll (3) is provided to the discharge pipe 19 through the discharge port formed in the center of the hard plate of the fixed scroll (1), and then the discharge pipe (19) It is discharged to the outside of the compressor to circulate the refrigeration cycle.

Since the scroll compressor is mainly used in home appliances such as refrigerators or air conditioners, low noise is essential to maintain a comfortable living environment of the user.

Therefore, a muffler device is installed in the discharge port formed at the center of the fixed scroll 1 to minimize the noise caused by the discharge of the refrigerant gas to reduce the overall noise of the compressor.

2 is a plan view and a front sectional view showing a muffler device of a scroll compressor according to the prior art.

Referring to FIG. 2, the muffler apparatus of the scroll compressor according to the related art has a diameter larger than the diameter of the discharge port 21 on the flow path of the discharge port 21 formed at the center of the fixed scroll 1 to discharge the refrigerant gas. Is formed in the form of a cylindrical groove having a muffler sphere 23 for absorbing the noise of the refrigerant gas.

Here, the outlet 21 'is selectively moved to the outlet 21' of the discharge port 21 by moving up and down by a predetermined distance from the upper side of the outlet 21 'according to the pressure difference between the inside and the outside of the discharge port 21. A check valve 25 for opening and closing is installed, and the check valve 25 is a circular opening and closing plate that moves up and down from the upper side of the outlet 21 'so as to open and close the outlet 21' of the discharge port 21 ( The opening and closing plate 25a and the opening and closing plate 25a are fixed to the fixed scroll 1 to enable the vertical movement of the opening and closing plate 25a, and the opening and closing plate 25a is in close contact with the outlet 21 '. It is composed of elastic support means for providing an elastic force to 25a.

In addition, a stopper 27 is provided on the upper side of the check valve 25 to limit the rising distance of the opening and closing plate 25a so that the opening and closing plate 25a does not fall more than a predetermined distance from the outlet 21 'of the discharge port 21. The stopper 27 is fixed to the fixed scroll 1 by two supporters 27a and 27b.

In the muffler apparatus of the scroll compressor configured as described above, when the pressure of the refrigerant gas compressed in the compression chamber formed by the fixed scroll 1 and the swing scroll 1 becomes a predetermined pressure or more, the outlet 21 ′ of the discharge port 21. The check valve 25 formed at the side is operated to open the discharge port 21.

When the discharge port 21 is opened as described above, the refrigerant gas is discharged through the discharge port 21 and the noise of the refrigerant gas is absorbed by the muffler port 23 formed in the discharge port 21. That is, the muffler port 23 serves as a sponge to absorb the noise of the refrigerant gas.

Thereafter, the refrigerant gas passing through the outlet 21 'and the check valve 25 of the discharge port 21 exits between the stopper 27 and the fixed scroll 1 and moves to the discharge pipe 19.

However, the muffler apparatus of the scroll compressor according to the prior art as described above, the sound absorbing force of the muffler sphere 23 formed in the discharge port 21 is weak, so that only the muffler sphere 23 can completely perform the sound absorbing action of the refrigerant gas. Since the noise generated by the discharge of the refrigerant gas is relatively large, as well as stop noise is generated a lot when the compressor stops rotating, there is a problem that the overall noise of the compressor is increased.

In addition, in the related art, since the opening and closing plate 25a of the check valve 25 hits the stopper 27 by the pressure pulsation of the refrigerant gas, a collision sound is generated between the opening and closing plate 25a and the stopper 27, and thus There was a problem that adversely affects the noise.

The present invention has been made to solve the above problems, by having a structure that can minimize the noise of the refrigerant gas discharged through the discharge port formed in the center of the fixed scroll, the overall noise of the compressor is reduced to the It is an object of the present invention to provide a muffler device for a scroll compressor that makes the use environment comfortable.

1 is a longitudinal sectional view showing a structure of a general scroll compressor;

2 is a plan view and a front sectional view showing a muffler device of a scroll compressor according to the prior art;

3 is a front sectional view showing a muffler device of a scroll compressor according to a first embodiment of the present invention;

4 is a front sectional view showing a muffler device of a scroll compressor according to a second embodiment of the present invention;

5 is a bottom view showing a stopper bottom surface in a second embodiment of the present invention;

6 is a front sectional view showing a muffler device of a scroll compressor according to a third embodiment of the present invention;

7 is a bottom view illustrating the bottom surface of the stopper in the third exemplary embodiment of the present invention.

<Explanation of symbols for main parts of drawing>

50: fixed scroll 51: discharge port

53 muffler port 55 refrigerant gas absorbing member

57: check valve 59: stopper

69: impact absorption member 79: sound absorption groove

According to a first aspect of the present invention for achieving the above object, a muffler sphere formed in the form of a cylindrical groove having a diameter larger than the discharge port on the flow path of the discharge port formed in the center of the fixed scroll to discharge the refrigerant gas, and A muffler apparatus for a scroll compressor including an annular refrigerant gas sound absorbing member which is inserted into the muffler port and formed in a mesh shape and absorbs noise of the refrigerant gas is provided.

In addition, according to the second aspect of the present invention, a muffler port formed in the form of a cylindrical groove having a diameter larger than the discharge port on the flow path of the discharge port formed in the center of the fixed scroll to discharge the refrigerant gas, and installed in the outlet of the discharge port And a check valve for selectively opening and closing the outlet by moving up and down by a predetermined distance from the upper side of the outlet according to the pressure difference between the inside and the outside of the discharge port, and a stopper installed above the check valve to limit the rising distance of the check valve. And, it is provided between the stopper and the check valve is provided with a muffler device of a scroll compressor including a collision sound preventing means for absorbing a collision sound generated between the check valve and the stopper collide with the stopper.

Further, according to a third aspect of the present invention, a muffler sphere formed in the form of a cylindrical groove having a diameter larger than that of the discharge hole is formed in the center of the fixed scroll to discharge the refrigerant gas, and is installed at the outlet of the discharge hole. And a check valve for selectively opening and closing the outlet by moving up and down by a predetermined distance from the upper side of the outlet according to the pressure difference between the inside and the outside of the discharge port, and a stopper installed above the check valve to limit the rising distance of the check valve. And a muffler device of a scroll compressor including a refrigerant gas absorbing means formed on a lower surface of the stopper to absorb noise of the refrigerant gas.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

3 is a front sectional view showing a muffler device of a scroll compressor according to a first embodiment of the present invention.

3, the first embodiment of the present invention is formed in the center of the fixed scroll 50 of the cylindrical groove having a diameter larger than the discharge port 51 on the flow path of the discharge port 51 for discharging the refrigerant gas The muffler sphere 53 is formed in a shape, and the muffler sphere 53 is provided with an annular refrigerant gas absorbing member 55 which is formed in a mesh shape and absorbs noise of the refrigerant gas.

Here, the refrigerant gas sound absorbing member 55 is made of a metal material of wire mesh.

In addition, the outlet 51 'is selectively moved to the outlet 51' of the outlet 51 by being moved up and down by a predetermined distance from the upper side of the outlet 51 'according to the pressure difference between the inside and the outlet of the outlet 51. The check valve 57 is opened and closed, and a stopper 59 is provided above the check valve 57 to limit the lift distance of the check valve 57.

In the muffler apparatus of the scroll compressor according to the first embodiment of the present invention configured as described above, the discharge port 51 when the pressure of the refrigerant gas compressed in the compression chamber formed by the fixed scroll 1 and the swing scroll becomes equal to or greater than a predetermined pressure. The check valve 57 formed at the outlet 51 'side of the outlet is operated to open the discharge port 51.

When the discharge port 51 is opened as described above, the refrigerant gas is discharged through the discharge port 51. At this time, the noise of the refrigerant gas is absorbed by the muffler port 53 formed in the discharge port 51 and the mesh refrigerant gas absorbing member 55 provided in the muffler port 53. That is, the muffler port 53 and the refrigerant gas absorbing member 55 serve as a sponge to absorb the noise of the refrigerant gas.

Thereafter, the refrigerant gas passing through the outlet 51 'and the check valve 57 of the discharge port 51 is discharged between the stopper 59 and the fixed scroll 50 and moved to the discharge pipe.

4 is a front sectional view showing a muffler device of a scroll compressor according to a second embodiment of the present invention, and FIG. 5 is a bottom view showing a bottom surface of a stopper in a second embodiment of the present invention.

4 and 5, the second embodiment of the present invention has a diameter larger than that of the discharge port 61 on the flow path of the discharge port 61 which is formed at the center of the fixed scroll 60 to discharge the refrigerant gas. A muffler port 63 is formed in the form of a cylindrical groove, and the outlet 61 'of the discharge port 61 is a predetermined distance from the upper side of the outlet 61' according to the pressure difference between the inside and the outside of the discharge port 61. A check valve 65 for selectively opening and closing the outlet 61 ′ is installed by moving up and down by an amount, and a stopper 67 is installed above the check valve 65 to limit the rising distance of the check valve 65. When the check valve 65 collides with the stopper 67, a collision sound preventing means is provided between the stopper 67 and the check valve 65 to absorb a collision sound generated therebetween.

Here, the collision sound preventing means is composed of a mesh collision absorbing member 69 which is attached to the lower surface of the stopper 67 and absorbs the collision sound of the check valve 65 and the stopper 67.

In addition, a hole 67 'is formed in the stopper 67 so that the pressure outside the discharge port 61 can act on the check valve 65, and a hole formed in the stopper 67 in the collision absorbing member 69. Holes 69 'in the same form as 67' are formed.

In addition, the impact absorbing member 69 is formed of a metal mesh of the wire mesh, even if attached to the upper surface of the check valve 65, the effect will appear the same.

In the muffler apparatus of the scroll compressor according to the second embodiment of the present invention configured as described above, the discharge port 61 when the pressure of the refrigerant gas compressed in the compression chamber formed by the fixed scroll 60 and the swing scroll is equal to or higher than a predetermined pressure. The check valve 65 formed on the outlet 61 'side of the outlet is operated to open the discharge port 61.

In other words, the check valve 65 is moved upward by the pressure of the refrigerant gas to open the discharge port 61, at which time the check valve 65 hits the stopper 67.

However, in the second embodiment of the present invention, since the collision-absorbing member 69 is reticularly attached to one of the lower surface of the stopper 67 and the upper surface of the check valve 65, the check valve 65 is provided. And the impact sound generated between the stopper 67 and the impact absorbing member 69 are absorbed.

When the discharge port 61 is opened as described above, the refrigerant gas is discharged through the discharge port 61, and the noise of the refrigerant gas is absorbed by the muffler port 63 formed in the discharge port 61. That is, the muffler port 63 serves as a sponge to absorb the noise of the refrigerant gas.

Thereafter, the refrigerant gas passing through the outlet 61 ′ of the discharge port 61 and the check valve 65 exits between the bottom surface of the stopper 67 and the fixed scroll 60 and moves to the discharge pipe.

At this time, since the refrigerant gas passing through the check valve 65 does not hit the stopper 67 directly, but the collision sound absorbing member 69, the impact sound of the refrigerant gas is absorbed by the collision sound absorbing member 69. Will be.

As a result, the impact sound of the check valve 65 and the impact sound of the refrigerant gas are removed by the buffering action of the collision sound absorbing member 69.

6 is a front sectional view showing a muffler apparatus of a scroll compressor according to a third embodiment of the present invention, and FIG. 7 is a bottom view showing a bottom surface of a stopper in a third embodiment of the present invention.

6 and 7, the third embodiment of the present invention has a larger diameter than the discharge port 71 on the flow path of the discharge port 71 formed in the center of the fixed scroll 70 to discharge the refrigerant gas. A muffler sphere 73 formed in the form of a cylindrical groove is formed, and the outlet 71 'of the discharge port 71 is fixed at an upper side of the outlet 71' according to a pressure difference between the inside and the outside of the discharge port 71. A check valve 75 for selectively opening and closing the outlet 71 ′ is installed by moving up and down by a distance, and a stopper 77 for limiting a rising distance of the check valve 75 is provided above the check valve 75. The bottom surface of the stopper 77 is provided with a refrigerant gas absorbing means for absorbing the noise of the refrigerant gas.

Here, the refrigerant gas sound absorbing means is composed of a plurality of sound absorbing grooves 79 formed on the lower surface of the stopper 77, the sound absorbing grooves 79 pass through the check valve 75 and then the lower surface of the stopper 77 And uniform pressure distribution of the refrigerant gas to be moved between the scroll 70 serves to reduce the noise of the refrigerant gas.

In addition, the sound absorbing grooves 79 are arranged to be spaced apart from each other in parallel in the vertical direction.

In the muffler apparatus of the scroll compressor according to the third embodiment of the present invention configured as described above, the discharge port 71 when the pressure of the refrigerant gas compressed in the compression chamber formed by the fixed scroll 70 and the swing scroll becomes more than a predetermined pressure. The check valve 75 formed at the outlet 71 'side of the outlet is operated to open the discharge port 71.

When the discharge port 71 is opened as described above, the refrigerant gas is discharged through the discharge port 71 and the noise of the refrigerant gas is absorbed by the muffler port 73 formed in the discharge port 71. That is, the muffler sphere 73 serves as a sponge to absorb the noise of the refrigerant gas.

Thereafter, the refrigerant gas passing through the outlet 71 ′ of the discharge port 71 and the check valve 75 is discharged between the lower surface of the stopper 77 and the fixed scroll 70 and moved to the discharge pipe.

In this case, since a plurality of sound absorbing grooves 79 are formed on the bottom surface of the stopper 77, the pressure distribution of the refrigerant gas is uniform by the sound absorbing grooves 79, thereby reducing the noise of the refrigerant gas.

Each embodiment of the present invention as described above may be used independently as described above, but may be used in combination with each other. The most preferable form at this time uses all the 1st Example, 2nd Example, and 3rd Example in parallel.

The muffler apparatus of the scroll compressor according to the present invention constructed and operated as described above includes a muffler port 53 formed in the form of a cylindrical groove having a diameter larger than that of the discharge port 51 on the flow path of the discharge port 51, and the It is inserted into the muffler port 53 and provided with an annular refrigerant gas sound absorbing member 55 which is formed in a mesh shape and absorbs the noise of the refrigerant gas. The stop noise at the time of the stop of the rotation is minimized, and the sound absorbing force of the muffler port 53 and the refrigerant gas sound absorbing member 55 is strengthened, thereby minimizing noise due to the discharge of the refrigerant gas.

As such, when the noise due to the discharge of the refrigerant gas is minimized, the overall noise of the compressor is reduced, so that low noise can be realized, and the use environment of the compressor becomes comfortable.

In addition, the present invention is provided between the check valve 65 and the stopper 67, the impact absorbing member 69 that absorbs the collision sound generated between the check valve 65 and the stopper 67 when the collision occurs And a plurality of sound absorbing grooves 79 formed on the bottom surface of the stopper 77 to absorb noise of the refrigerant gas, thereby eliminating the collision sound between the check valve 65 and the stopper 67, as well as discharging the refrigerant gas. Due to the noise is much reduced, the actual acoustic noise of the compressor is reduced.

Claims (5)

A discharge port formed in the center of the fixed scroll to discharge the refrigerant gas, a muffler port formed in the form of a cylindrical groove having a diameter larger than that of the discharge port on the flow path of the discharge port, and inserted into the muffler port, Muffler device of the scroll compressor, characterized in that it comprises an annular refrigerant gas sound absorbing member for absorbing the noise of the refrigerant gas. A muffler port formed in the form of a cylindrical groove having a diameter larger than the discharge port on a flow path of the discharge port formed at the center of the fixed scroll and discharging the refrigerant gas, and installed at an outlet of the discharge port according to a pressure difference between the inside and the outside of the discharge port; A check valve for selectively opening and closing the outlet by moving up and down by a predetermined distance from the upper side of the outlet, a stopper disposed above the check valve to limit the rising distance of the check valve, and between the stopper and the check valve. And a collision sound preventing means for absorbing a collision sound generated therebetween when the check valve collides with the stopper. The method of claim 2, The anti-collision means of the scroll compressor is a muffler device, characterized in that the collision sound absorbing member is attached to any one of the lower surface of the stopper and the upper surface of the check valve to absorb the collision sound of the check valve and the stopper. A muffler port formed in the form of a cylindrical groove having a diameter larger than the discharge port on a flow path of the discharge port formed at the center of the fixed scroll and discharging the refrigerant gas, and installed at an outlet of the discharge port according to a pressure difference between the inside and the outside of the discharge port; A check valve for selectively opening and closing the outlet by moving up and down by a predetermined distance from the upper side of the outlet, a stopper provided on the upper side of the check valve to limit the ascending distance of the check valve, and a coolant gas formed on the bottom surface of the stopper. Muffler device of a scroll compressor comprising a refrigerant gas absorbing means for absorbing noise. The method of claim 4, wherein The refrigerant gas sound absorbing means is a muffler device of a scroll compressor, characterized in that composed of a plurality of sound absorbing grooves formed on the lower surface of the stopper.