KR20190133082A - Scroll compressor - Google Patents

Abstract

The present invention provides a scroll compressor inducting and discharging a fluid, which comprises: a casing having a suction area into which the fluid is inducted from the outside; a cover arranged at an upper side of the casing and having a discharge area from which the fluid inducted into the suction area is discharged to the outside; a fixed scroll disposed between the casing and the cover; a rotational scroll installed at the fixed scroll and discharging the fluid inducted into the suction area to the discharge area through rotation; a frame disposed between the rotational scroll and the casing and having a back pressure chamber into which a portion of oil discharged to the outside through the discharge area is inducted; a shaft inserted into the frame and rotating the rotational scroll; and a bearing accommodated in the back pressure chamber and supporting a rotational shaft with respect to the frame to be able to rotate, wherein the frame communicates with the back pressure chamber and has a foreign material groove into which a foreign material flowing into the back pressure is inducted. The scroll compressor according to the present invention discharges the foreign material flowing into the back pressure chamber to the suction area through the foreign material groove, thereby preventing damage to internal parts due to the foreign material. Additionally, the scroll compressor according to the present invention is designed to have a structure that the fluid flowing into the back pressure chamber is passed through the bearing and induced into the foreign material groove, thereby lubricating the bearing with the fluid.

Description

Scroll compressor

The present invention relates to a scroll compressor, and more particularly, to a scroll compressor that sucks and compresses a fluid and then discharges it to the outside.

In general, the scroll compressor refers to a compressor that compresses the refrigerant gas between the fixed scroll and the rotating scroll to discharge the high pressure refrigerant gas from the central discharge portion to the outside. In addition, the scroll compressor has an advantage that noise and vibration are relatively small in the compression process because the torque of each component does not change significantly when compared with the piston type compressor.

As related to such a scroll compressor, Korean Utility Model Registration No. 20-0115484 discloses a scroll compressor.

In the conventional scroll compressor, a back pressure chamber into which some of the refrigerant gas discharged to the discharge area by the rotation of the rotating scroll is bypassed is formed. The refrigerant gas introduced into the back pressure chamber presses the rotating scroll toward the fixed scroll side, thereby bringing the rotating scroll into close contact with the fixed scroll.

At this time, according to the conventional scroll compressor, there is a problem that the internal parts are damaged by foreign matter introduced into the back pressure chamber.

The present invention has been made to solve the above problems, and an object of the present invention is to provide an improved scroll compressor to prevent internal parts from being damaged by foreign substances introduced into the back pressure chamber.

According to an aspect of the present invention, there is provided a scroll compressor for sucking and discharging fluid, the scroll compressor comprising: a casing having a suction area through which fluid is sucked from the outside; A cover disposed above the casing and having a discharge area for discharging the fluid introduced into the suction area to the outside; A fixed scroll disposed between the casing and the cover; A rotating scroll installed in the fixed scroll and discharging the fluid introduced into the suction region to the discharge region through rotation; A frame having a back pressure chamber interposed between the rotating scroll and the casing and into which some of the oil discharged to the outside through the discharge area flows; A shaft inserted into the frame to rotate the rotating scroll; And a bearing accommodated in the back pressure chamber to rotatably support the rotation shaft with respect to the frame, wherein the frame communicates with the back pressure chamber and provides a scroll compressor having a foreign material groove in which foreign substances introduced into the back pressure chamber are introduced. do.

The bearing may be accommodated in a lower portion of the back pressure chamber, and the foreign material groove may be formed at a lower side of the back pressure chamber to allow a mixture of a fluid and a foreign substance to pass through the bearing.

The frame may include a foreign material passage communicating with the foreign substance groove, and a low pressure passage communicating with the foreign substance passage and discharging the foreign substance introduced into the foreign substance groove to the suction region.

The foreign material flow path may be formed to communicate with the casing side portion of the foreign material groove.

The control valve may further include a control valve installed in the low pressure passage and selectively discharging the fluid introduced into the back pressure chamber to the suction region so that the pressure in the back pressure chamber is kept constant.

According to the scroll compressor according to the present invention, the foreign matter introduced into the back pressure chamber is discharged to the suction region through the foreign material groove, it is possible to prevent the internal parts from being damaged by the foreign matter.

In addition, according to the scroll compressor according to the present invention, the fluid flowing into the back pressure chamber is designed to be introduced into the foreign material groove through the bearing, so that the bearing can be lubricated by the fluid.

1 is a cross-sectional view of a scroll compressor according to an embodiment of the present invention.
FIG. 2 is a perspective view of the frame shown in FIG. 1. FIG.

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

1 is a cross-sectional view of a scroll compressor according to an embodiment of the present invention, Figure 2 is a perspective view of the frame shown in FIG.

Hereinafter, a scroll compressor 100 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The scroll compressor 100 according to the embodiment of the present invention is to suck and compress a fluid from the outside and then discharge it to the outside, the casing 110, the cover 120, the fixed scroll 130, and the rotating scroll 140. ), A frame 150, a shaft 160, a bearing 170, and a control valve 180.

The casing 110 has a suction area 111 in which fluid is sucked from the outside, and a motor for rotating the shaft 160 is installed therein. The suction region 111 does not refer to a specific space inside the casing 110, but a fluid is formed as a space between a part (motor, etc.) disposed inside the casing 110 and the casing 110. All of the incoming space corresponds to this.

The cover 120 is disposed above the casing 110 and has a discharge area 121 through which fluid introduced into the suction area 111 is discharged to the outside. The discharge area 121, like the suction area 111, does not refer to a specific space inside the cover 120, but is fixed as a space between the cover 120 and the fixed scroll 130. The space into which the fluid discharged by the scroll 130 and the rotary scroll 140 flows may correspond to this.

The fixed scroll 130 is interposed between the casing 110 and the cover 120. The rotating scroll 140 is interposed between the fixed scroll 130 and the casing 110 and rotates relative to the fixed scroll 130 to discharge the fluid introduced into the suction region 111. Discharges to the area 121.

The frame 150 is interposed between the rotating scroll 140 and the casing 110. And the fixing pin is inserted into the radially outer end of the cover 120, the fixed scroll 130, the frame 150 and the casing 110, the cover 120, the fixed scroll 130, the frame 150 And the casing 110 are installed to be fixed to each other.

The shaft 160 is installed inside the casing 110, and an end thereof is coupled to the rotating scroll 140 through the frame 150. The shaft 160 is rotated by a motor installed in the casing 110 to rotate the rotary scroll 140. The bearing 170 is installed between the inner wall of the frame 150 and the shaft 160 to rotatably support the shaft 160 with respect to the frame 150.

The back pressure chamber 151, the foreign material groove 152, the foreign material flow passage 153, and the low pressure flow passage 154 are formed in the frame 150. The back pressure chamber 151 is formed at the side of the rotating scroll 140 of the frame 150, and a part of the fluid discharged to the outside through the discharge area 121 is bypassed to the back pressure chamber 151. Flows into). Thus, the fluid introduced into the back pressure chamber 151 presses the rotary scroll 140 toward the fixed scroll 130, thereby bringing the rotary scroll 140 into close contact with the fixed scroll 130.

When the rotating scroll 140 side is defined as the upper side and the casing 110 side is defined as the lower side with respect to the frame 150, the bearing 170 may be accommodated in the lower portion of the back pressure chamber 151. Can be. The foreign material groove 152 is formed at the lower side of the back pressure chamber 151 and communicates with the back pressure chamber 151 to introduce foreign substances introduced into the back pressure chamber 151.

The foreign substance flow path 153 is formed such that one end communicates with the foreign material groove 152. The foreign material passage 153 is formed such that the other end is also in communication with the low pressure passage 154. Here, the low pressure passage 154 is formed to communicate with the back pressure chamber 151 and the suction region 111, respectively. In the low pressure passage 154, the fluid in the back pressure chamber 151 is sucked in such a way that the pressure indicated by the inside of the back pressure chamber 151 is maintained constant by the fluid introduced into the back pressure chamber 151. It is discharged to the region 111 side.

At this time, the fluid on the discharge region 121 side shows a much higher pressure than the fluid on the suction region 111 side. Therefore, when the foreign material groove 152, the foreign material passage 153, and the low pressure passage 154 are formed in the frame 150 as described above, flows into the back pressure chamber 151 from the discharge region 121. The mixed mixture of the fluid and the foreign matter passes through the bearing 170 and flows into the foreign material groove 152 and then is discharged to the suction region 111 through the foreign matter passage 153 and the low pressure passage 154. do.

In this circulation process, foreign substances introduced into the back pressure chamber 151 are continuously discharged to the suction region 111 so that they do not accumulate inside the back pressure chamber 151. In addition, through this circulation process, the bearing 170 is lubricated by a flow of fluid flowing into the back pressure chamber 151 and flowing into the foreign material groove 152.

Therefore, according to the scroll compressor 100 according to the embodiment of the present invention, as the foreign matter introduced into the back pressure chamber 151 accumulates in the back pressure chamber 151, the inner wall of the back pressure chamber 151 and the bearing 170 ) Can be prevented from being damaged. In addition, by allowing the bearing 170 to be continuously lubricated, the bearing 170 may be prevented from being damaged by friction generated by the rotation of the shaft 160.

On the other hand, the foreign material passage 153 may be formed to communicate with the casing 110 side portion (lower portion of the foreign material groove 152) of the foreign material groove 152. In this case, foreign matter collected in the casing 110 side portion of the foreign material groove 152 may be introduced into the low pressure passage 154 and then discharged into the suction region 111.

The control valve 180 selectively discharges the fluid introduced into the back pressure chamber 151 to the suction region 111 so that the pressure in the back pressure chamber 151 can be maintained constant. The back pressure chamber 151 is a place where the high pressure fluid discharged from the discharge region 121 is introduced, so that the fluid in the back pressure chamber 151 is supplied through the low pressure passage 154 to maintain the constant pressure. It is necessary to discharge to the suction region 111 side. The control valve 180 serves as a kind of check valve for adjusting the pressure in the back pressure chamber 151 so that the pressure in the back pressure chamber 151 can be kept constant. It can be seen as a configuration.

As described above, according to the scroll compressor 100 according to the present invention, the foreign matter introduced into the back pressure chamber 151 is discharged to the suction region 111 through the foreign material groove 152, the interior, The parts can be prevented from being damaged by foreign matter.

In addition, according to the scroll compressor 100 according to the present invention, the fluid flowing into the back pressure chamber 151 is designed to be introduced into the foreign material groove 152 through the bearing 170, the bearing ( 170 may be lubricated by the fluid.

100: scroll compressor 110: casing
120: cover 130: fixed scroll
140: rotating scroll 150: frame
160: shaft 170: bearing
180: control valve

Claims (5)

A scroll compressor for sucking and discharging fluid,
A casing having a suction area through which fluid is sucked from the outside;
A cover disposed above the casing and having a discharge area for discharging the fluid introduced into the suction area to the outside;
A fixed scroll disposed between the casing and the cover;
A rotating scroll installed in the fixed scroll and discharging the fluid introduced into the suction region to the discharge region through rotation;
A frame having a back pressure chamber interposed between the rotating scroll and the casing and into which some of the oil discharged to the outside through the discharge area flows;
A shaft inserted into the frame to rotate the rotating scroll; And
A bearing accommodated in the back pressure chamber and rotatably supporting the rotating shaft with respect to the frame;
The frame is in contact with the back pressure chamber, the scroll compressor is provided with a foreign material groove into which the foreign matter introduced into the back pressure chamber. The method according to claim 1,
The bearing is accommodated in the lower portion of the back pressure chamber,
The foreign material groove is formed in the lower side of the back pressure chamber, the scroll compressor, characterized in that the mixture of the fluid and the foreign substances passing through the bearing flows in. The method according to claim 1,
The frame is a scroll compressor, characterized in that the foreign material flow path communicating with the foreign material groove, the low pressure flow path is in communication with the foreign material flow path to discharge the foreign substances introduced into the foreign material groove to the suction region. The method according to claim 3,
And the foreign material flow path is formed to communicate with the casing side portion of the foreign material groove. The method according to claim 3,
And a control valve installed in the low pressure passage and selectively discharging the fluid introduced into the back pressure chamber to the suction region so that the pressure in the back pressure chamber is kept constant.

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