JP2011012638A - Scroll compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent refrigerating machine oil from being excessively supplied to a wrap end of a turning scroll part and a back pressure chamber.SOLUTION: During turning motion of the turning scroll part 24, a communication recess 63 provided in a fixed scroll part 26 periodically communicates with one or both of a first communication hole 61 and a second communication hole 62 provided in the turning scroll part 24. With this, during the turning motion of the turning scroll part 24, an oil chamber 52 periodically communicates with a compression chamber 40 and a second space 37b via the first communication hole 61, second communication hole 62 and communication recess 63. Thereby, the refrigerating machine oil inside the oil chamber 52 is supplied intermittently to the compression chamber 40 and the second space 37b.

Description

  The present invention relates to a scroll compressor used for an air conditioner, a refrigerator, and the like.

  Currently, in scroll compressors used in air conditioners, refrigerators, etc., the refrigerating machine oil is inserted into the wrap end face of the orbiting scroll part and the refrigerating machine oil is inserted into the tip (wrap end part) through the oil supply hole communicating with the refrigerating machine oil reservoir in the high pressure state. ) Has been proposed to improve the sealing performance of the compression chamber and the lubricity of the sliding surface of the chip.

  For example, in the scroll compressor disclosed in Patent Document 1 (Japanese Patent Laid-Open No. 2006-118395), a groove is provided adjacent to the opening of the oil supply pore provided in the wrap end surface of the orbiting scroll component, The refrigerating machine oil guided from the refrigerating machine oil reservoir to the oil supply pores is supplied to the chip through the groove.

  Further, in the scroll compressor disclosed in Patent Document 2 (Japanese Patent Application Laid-Open No. 2005-188294), an oil supply hole communicating with an oil supply passage formed in the end plate of the orbiting scroll part opens at the lap end surface. At the same time, oil supply pores communicating with the back pressure chamber from the oil supply passage are opened on the end plate surface of the orbiting scroll component. In the scroll compressor, refrigeration oil is supplied to the chip and the back pressure chamber.

  However, these scroll compressors have a problem that it is difficult to control the supply amount of the refrigerating machine oil because the refrigerating machine oil is supplied with the differential pressure through the refueling pores that are always in communication. That is, in these scroll compressors, during the revolving motion of the orbiting scroll parts, the refrigerating machine oil is continuously supplied from the refrigerating machine oil reservoir under the high pressure atmosphere to the chip and the back pressure chamber under the lower pressure atmosphere. The refrigerator oil may be excessively supplied to the chip and the back pressure chamber.

  Therefore, an object of the present invention is to provide a scroll compressor that can prevent excessive supply of refrigeration oil to the tip and the back pressure chamber.

  The scroll compressor which concerns on 1st invention is provided with a turning scroll component and a fixed scroll component. The orbiting scroll component includes a first end plate, a first lap, a second bearing portion, a first communication hole, and a second communication hole. The first wrap is formed while maintaining a spiral shape from the first plane of the first end plate toward the direction perpendicular to the first plane. The second bearing portion is fixed and held on the second surface which is the back surface of the first plane. The first communication hole has a first opening and a second opening. The first opening opens on the second surface inside the second bearing portion. The second opening opens at the end face of the first wrap. The second communication hole has a third opening and a fourth opening. The third opening opens on the second surface outside the second bearing portion. The fourth opening opens at the end face of the first wrap. The fixed scroll component includes a second end plate, a second wrap, and a communication recess. The second wrap is formed while maintaining a spiral shape from the third plane of the second end plate toward the direction perpendicular to the third plane. The second wrap meshes with the first wrap. The first wrap and the second wrap mesh with each other to form a space that is sealed by the first end plate, the second end plate, the first wrap, and the second wrap. The space acts as a compression chamber that is compressed while reducing the volume by the orbiting motion of the orbiting scroll component. The communication recess opens in the third plane. The communication recess temporarily communicates with both the first communication hole and the second communication hole during the orbiting motion of the orbiting scroll component.

  According to the present invention, the refrigerating machine oil is supplied from the oil reservoir of the scroll compressor to the space inside the second bearing portion (hereinafter referred to as “bearing inner space”). A space outside the second bearing portion (hereinafter referred to as “outer bearing space”) is a back pressure chamber that is always at a lower pressure than the inner bearing space. The refrigerating machine oil is guided from the bearing inner space to the first communication hole through the first opening. When the communication recess temporarily communicates with the first communication hole by the orbiting motion of the orbiting scroll component, the refrigerating machine oil is supplied to the end portion (hereinafter simply referred to as “chip”) of the first wrap. In addition, when the communication depression temporarily communicates with both the first communication hole and the second communication hole due to the orbiting motion of the orbiting scroll component, the refrigeration oil flows from the first communication hole to the second communication hole via the communication depression. It is guided and supplied to the back pressure chamber, which is a space outside the bearing, through the third opening. Thereby, the scroll compressor which concerns on this invention can prevent that refrigerator oil is supplied excessively to a chip | tip and a back pressure chamber. Further, the scroll compressor according to the present invention appropriately changes the supply amount of the refrigerating machine oil to the tip and the back pressure chamber by changing the shape of the first communication hole, the shape of the second communication hole, and the shape of the communication recess. Can be controlled.

  In the scroll compressor according to the present invention, during the orbiting motion of the orbiting scroll component, the communication recess is not in communication with either the first communication hole or the second communication hole, and only the first communication hole. A first communication state communicating with the first communication hole, a second communication state communicating with both the first communication hole and the second communication hole, and a third communication state communicating with only the second communication hole. . At this time, as the turning angle changes due to the orbiting movement of the orbiting scroll component, the communication depression changes in the order of the discontinuous state, the first communicating state, the second communicating state, and the third communicating state. After that, it will return to the disconnected state. Hereinafter, the change in the flow of the refrigerating machine oil when the communication depression makes such a transition will be described.

  In the non-communication state, since the first communication hole is not in communication with the communication depression, the refrigeration oil fills the first communication hole and is blocked by the second end plate at the second opening. At this time, since the communication depression communicates with the compression chamber, the communication depression is filled with the refrigerant gas in the compression chamber. Next, in the first communication state, the first communication hole communicates with the communication depression through the second opening, and the compression chamber communicates with the communication depression. At this time, the refrigerating machine oil is supplied from the bearing inner space to the compression chamber via the first communication hole and the communication depression. Next, in the second communication state, the compression chamber does not communicate with the communication depression, the first communication hole communicates with the communication depression through the second opening, and the second communication hole also communicates with the communication depression through the fourth opening. Communicate. At this time, the refrigerating machine oil is supplied from the bearing inner space to the bearing outer space via the first communication hole, the communication depression, and the second communication hole. Next, in the third communication state, the first communication hole does not communicate with the communication depression, and the second communication hole communicates with the communication depression through the fourth opening. At this time, the refrigerating machine oil in a high-pressure atmosphere filled in the communication depression is supplied to the bearing outer space via the second communication hole. At this time, the refrigeration oil fills the first communication hole and is blocked by the second end plate at the second opening. Next, the communication state is restored. As a result, during the orbiting motion of the orbiting scroll component, the refrigerating machine oil is intermittently supplied from the bearing inner space to the compression chamber and the bearing outer space via the communication recess, so that the refrigerating machine oil is excessively supplied to the tip and the back pressure chamber. It can be prevented from being supplied.

  A scroll compressor according to a second aspect of the present invention is the scroll compressor according to the first aspect of the present invention, wherein the fixed scroll component has a plurality of communication recesses.

  According to the present invention, the refrigerating machine oil in the bearing inner space is supplied to the bearing outer space via the plurality of communication recesses on the same principle as the scroll compressor according to the first invention. Thereby, the scroll compressor which concerns on this invention can prevent that refrigerator oil is supplied excessively to a chip | tip and a back pressure chamber. Further, the scroll compressor according to the present invention changes the shape of the first communication hole, the shape of the second communication hole, and the shape / number of the communication recesses, thereby reducing the supply amount of the refrigerating machine oil to the chip and the back pressure chamber. It can be controlled appropriately.

  A scroll compressor according to a third aspect of the present invention is the scroll compressor according to the second aspect of the present invention, wherein the orbiting scroll component has a plurality of second communication holes that open in the vicinity of the first communication holes and the first communication holes. Has holes. Each first communication hole corresponds to one second communication hole opened in the vicinity. The first communication hole and the second communication hole opened in the vicinity of the first communication hole temporarily communicate with at least one of the communication depressions during the turning motion of the orbiting scroll component.

  According to the present invention, the refrigerating machine oil in the bearing space passes through the plurality of first communication holes, the plurality of communication depressions, and the plurality of second communication holes on the same principle as the scroll compressor according to the first invention. Supplied to the space outside the bearing. Thereby, the scroll compressor which concerns on this invention can prevent that refrigerator oil is supplied excessively to a chip | tip and a back pressure chamber. Further, the scroll compressor according to the present invention changes the shape and number of the first communication hole, the shape and number of the second communication hole, and the shape and number of the communication recess, thereby refrigerating machine oil to the tip and the back pressure chamber. Can be appropriately controlled.

  A scroll compressor according to a fourth aspect of the present invention includes a turning scroll component and a fixed scroll component. The orbiting scroll component includes a first end plate, a first lap, a second bearing portion, a first communication hole, and a second communication hole. The first wrap is formed while maintaining a spiral shape from the first plane of the first end plate toward the direction perpendicular to the first plane. The second bearing portion is fixed and held on the second surface which is the back surface of the first plane. The first communication hole has a first opening and a second opening. The first opening opens on the second surface inside the second bearing portion. The second opening opens at the end face of the first wrap. The second communication hole has a third opening and a fourth opening. The third opening opens on the second surface outside the second bearing portion. The fourth opening opens at the end face of the first wrap. The fixed scroll component includes a second end plate and a second wrap. The second wrap is formed while maintaining a spiral shape from the third plane of the second end plate toward the direction perpendicular to the third plane. The second wrap meshes with the first wrap. The first wrap and the second wrap mesh with each other to form a space that is sealed by the first end plate, the second end plate, the first wrap, and the second wrap. The space acts as a compression chamber that is compressed while reducing the volume by the orbiting motion of the orbiting scroll component.

  According to the present invention, the refrigerating machine oil is supplied from the oil reservoir of the scroll compressor to the bearing inner space. When the bearing inner space is in a high pressure state, the refrigerating machine oil is guided from the bearing inner space to the first communication hole through the first opening. At this time, the refrigerating machine oil adheres to the third plane in contact with the second opening of the first communication hole. At this time, refrigeration oil is supplied to the chip. Next, when the orbiting scroll component orbits and the turning angle changes, the refrigeration oil adhering to the third plane in contact with the second opening is guided to the fourth opening of the second communication hole. The refrigerating machine oil guided to the fourth opening is supplied to the back pressure chamber, which is a space outside the bearing, via the second communication hole. Next, the orbiting scroll component orbits to return to the original state. Thereby, the scroll compressor which concerns on this invention can prevent that refrigerator oil is supplied excessively to a chip | tip and a back pressure chamber. In the scroll compressor according to the present invention, the supply amount of the refrigerating machine oil to the tip and the back pressure chamber can be appropriately controlled by changing the shape of the first communication hole and the shape of the second communication hole. .

  The scroll compressor according to the present invention can prevent the refrigerating machine oil from being supplied excessively to the chip and the back pressure chamber.

It is a longitudinal section of the scroll compressor concerning a 1st embodiment of the present invention. It is a fragmentary sectional view of the turning scroll component and fixed scroll component in 1st Embodiment of this invention. It is a fragmentary top view of the turning scroll component and fixed scroll component in 1st Embodiment of this invention. In 1st Embodiment of this invention, it is a fragmentary sectional view of a turning scroll component and a fixed scroll component when a communication hollow takes a non-communication state. In 1st Embodiment of this invention, it is a partial top view of a turning scroll component and a fixed scroll component in case a communicating hollow takes a non-communication state. In 1st Embodiment of this invention, it is a fragmentary sectional view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 1st communication state. In 1st Embodiment of this invention, it is a partial top view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 1st communication state. In 1st Embodiment of this invention, it is a fragmentary sectional view of a turning scroll component and a fixed scroll component just before a communication hollow takes a 2nd communication state. In 1st Embodiment of this invention, it is a partial top view of a turning scroll component and a fixed scroll component just before a communication hollow takes a 2nd communication state. In 1st Embodiment of this invention, it is a fragmentary sectional view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 2nd communication state. In 1st Embodiment of this invention, it is a partial top view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 2nd communication state. In 1st Embodiment of this invention, it is a fragmentary sectional view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 3rd communication state. In 1st Embodiment of this invention, it is a partial top view of a turning scroll component and a fixed scroll component in case a communication hollow takes a 3rd communication state. It is a fragmentary top view of the turning scroll component and fixed scroll component in the modification of 1st Embodiment of this invention. It is a fragmentary sectional view of the turning scroll component and fixed scroll component in the modification of 1st Embodiment of this invention.

-First embodiment-
Hereinafter, a scroll compressor according to a first embodiment of the present invention will be described.

<Configuration>
A scroll compressor 1 according to a first embodiment of the present invention is shown in FIG. The scroll compressor 1 is connected to a refrigerant circuit (not shown) that performs an operation of a refrigeration cycle that circulates refrigerant, and compresses refrigerant gas. Hereinafter, the configuration of the scroll compressor 1 will be described.

  The scroll compressor 1 has a sealed dome-shaped casing 10. Inside the casing 10 are accommodated a compression mechanism 15 that compresses the refrigerant gas and a compressor motor 16 that drives the compression mechanism 15. The compressor motor 16 is disposed below the compression mechanism 15. The compression mechanism 15 and the compressor motor 16 are connected by a drive shaft 17. A suction pipe 19 that guides the refrigerant in the refrigerant circuit to the compression mechanism 15 and a discharge pipe 20 that discharges the refrigerant inside the casing 10 to the outside of the casing 10 are joined to the casing 10 in an airtight manner.

  The compression mechanism 15 includes a fixed scroll component 26, a frame 23 disposed so as to be in close contact with the lower surface of the fixed scroll component 26, and a turning scroll component 24 that meshes with the fixed scroll component 26. The frame 23 is joined to the inner wall of the casing 10 in an airtight manner over the entire circumference. The frame 23 is formed with a frame recess 30 recessed on the upper surface, an intermediate recess 31 recessed on the lower surface of the frame recess 30, and a first bearing portion 32 extending in the center of the lower surface of the frame 23. Has been. The drive shaft 17 is rotatably fitted to the first bearing portion 32 via a slide bearing.

  The orbiting scroll component 24 includes a first end plate 24a and a spiral first wrap 24b. The fixed scroll component 26 includes a second end plate 26a and a spiral second wrap 26b. A second bearing portion 34 is provided on the lower surface of the first end plate 24a. The second bearing portion 34 is located inside the frame recess 30 and the middle recess 31. Further, the upper end of the drive shaft 17 is fitted into the second bearing portion 34. An annular seal member 36 is disposed outside the second bearing portion 34 so as to be in close contact with the inner peripheral surface of the middle recess 31. The space inside the frame recess 30 and the middle recess 31 is partitioned into a first space 37 a outside the seal member 36 and a second space 37 b inside the seal member 36.

  The orbiting scroll component 24 revolves (turns) inside the frame 23 without rotating. The fixed scroll component 26 and the orbiting scroll component 24 have sliding surfaces that are in sliding contact with each other. A gap between the second wrap 26 b of the fixed scroll component 26 and the first wrap 24 b of the orbiting scroll component 24 is defined as a compression chamber 40. The refrigerant gas is compressed as the compression chamber 40 contracts toward the center due to the revolution of the orbiting scroll component 24. The refrigerant gas compressed in the compression chamber 40 is discharged into the high-pressure space 28 below the frame 23 through a discharge passage (not shown). The pressure in the second space 37b is maintained at an intermediate pressure between the pressure of the refrigerant gas before compression and the pressure of the refrigerant gas after compression by a back pressure adjustment mechanism (not shown) provided in the scroll compressor 1. ing. The pressure in the second space 37 b acts as a force (back pressure) that presses the movable scroll component 26 against the fixed scroll component 26 in a direction parallel to the drive shaft 17.

  An oil reservoir 48 is formed at the bottom of the casing 10, and the refrigerating machine oil in the oil reservoir 48 is pumped up by the rotation of the drive shaft 17. The drive shaft 17 is formed with a drive shaft oil supply passage 51 through which the pumped refrigeration oil flows. Further, an oil chamber 52 is formed inside the second bearing portion 34 between the drive shaft 17 and the second end plate 26 a, and the drive shaft oil supply passage 51 is connected to the oil chamber 52. The refrigerating machine oil is supplied to the oil chamber 52 through the drive shaft oil supply passage 51 in a high pressure state, and is also discharged to the oil supply locations of the respective parts.

  In the scroll compressor 1 according to the first embodiment of the present invention, as shown in FIGS. 2 and 3, the orbiting scroll component 24 has a first communication hole 61 and a second communication hole 62. The first communication hole 61 includes a first opening 71 that opens to the first end plate 24a inside the second bearing portion 34, and a second opening 72 that opens to the end of the first wrap 24b. The second communication hole 62 includes a third opening 73 that opens to the first end plate 24a outside the second bearing portion 34, and a fourth opening 74 that opens to the end of the first wrap 24b. That is, the first communication hole 61 is connected to the oil chamber 52, and the second communication hole 62 is connected to the second space 37b. As described above, since the high-pressure refrigerator oil is supplied to the oil chamber 52, the first communication hole 61 is always filled with the high-pressure refrigerator oil. Note that the pressure of the refrigerating machine oil in the oil chamber 52 is always higher than the pressure (back pressure) of the refrigerant gas in the second space 37b. The fixed scroll component 26 has a communication recess 63 that temporarily communicates with both the first communication hole and the second communication hole during the orbiting motion of the orbiting scroll component 24.

<Operation>
In the above configuration, the process in which the high-pressure refrigerating machine oil in the oil chamber 52 is intermittently supplied to the compression chamber 40 and the second space 37b through the communication recess 63 during the orbiting motion of the orbiting scroll component 24 will be described. To do.

  As shown in FIGS. 4 and 5, the communication recess 63 is in a non-communication state where it does not communicate with either the first communication hole 61 or the second communication hole 62. At this time, since the second opening 72 is closed by the second end plate 26a, the refrigeration oil is not supplied to either the compression chamber 40 or the second space 37b. At this time, the communication recess 63 is connected to the compression chamber 40, so that it is filled with the refrigerant gas in the compression chamber 40. Next, when the orbiting scroll component 24 orbits by a certain angle, the communication recess 63 takes a first communication state in which it communicates with the first communication hole 61 as shown in FIGS. At this time, since the communication depression 63 is connected to the compression chamber 40, the refrigeration oil is supplied to the compression chamber 40 through the first communication hole 61 and the communication depression 63. Here, FIG. 8 and FIG. 9 show a state immediately before the orbiting scroll component 24 further orbits by a certain angle and the communication recess 63 communicates with the second communication hole 62. At this time, the communication recess 63 communicates with the first communication hole 61. Next, when the orbiting scroll component 24 orbits by a certain angle, the communication recess 63 communicates with the first communication hole 61 and the second communication hole 62 at the same time as the second communication hole 62 as shown in FIGS. Take communication. At this time, since the communication recess 63 is not connected to the compression chamber 40, the refrigeration oil is supplied to the second space 37 b via the first communication hole 61, the communication recess 63 and the second communication hole 62. Next, when the orbiting scroll component 24 orbits by a certain angle, the communication recess 63 takes a third communication state in which it communicates with the second communication hole 62 as shown in FIGS. At this time, the refrigerating machine oil in the communication recess 63 is supplied to the second space 37 b through the second communication hole 62. Next, when the orbiting scroll component 24 orbits by a certain angle, the communication recess 63 returns to the non-communication state. As described above, during the orbiting motion of the orbiting scroll component, the communication depression 63 repeatedly changes in the discontinuous state, the first communication state, the second communication state, and the third communication state in this order. Thereby, the high-pressure refrigerating machine oil in the oil chamber 52 is intermittently supplied to the compression chamber 40 and the second space 37b.

<Features>
The scroll compressor 1 according to the first embodiment of the present invention is provided with the first communication hole 61 and the second communication hole 62 in the orbiting scroll component 24, and the communication recess 63 in the fixed scroll component 26, so that the refrigerating machine oil is provided. Can be intermittently supplied to the compression chamber 40 and the second space 37b. Thereby, the scroll compressor 1 can prevent the refrigerating machine oil from being excessively supplied to the chip (the end of the first wrap 24b) and the back pressure chamber (the second space 37b).

  Therefore, in the scroll compressor 1 according to the first embodiment of the present invention, there is no need to attach a tip seal to the end of the first wrap 24b of the orbiting scroll component 24, and the sliding between the first wrap 24b and the second end plate 26a. The lubrication characteristics of the moving surface (hereinafter referred to as “lap sliding surface”) and the airtightness of the compression chamber 40 can be ensured, and leakage of the refrigerant gas can be prevented. In the scroll compressor 1 according to the first embodiment of the present invention, the supply amount of the refrigerating machine oil can be appropriately controlled by changing the volume of the communication recess 63.

<Modification>
(1)
In the scroll compressor 1 according to the first embodiment of the present invention, the fixed scroll component 26 has one communication recess 63, but may have a plurality of communication recesses.

  As a modification of the first embodiment of the present invention, a scroll compressor provided with a fixed scroll component 26 'having two communicating recesses will be described. In this scroll compressor, as shown in FIG. 14, the fixed scroll component 26 'has a communication recess 63a and a communication recess 63b. The communication recess 63a and the communication recess 63b are disposed at positions connected to different compression chambers during the orbiting motion of the orbiting scroll component 24 '. The orbiting scroll component 24 ′ has a first communication hole 61, a second communication hole 62 a that communicates with the communication recess 63 a, and a second communication hole 62 b that communicates with the communication recess 63 b. Thereby, the scroll compressor according to the present modification can supply the refrigerating machine oil to different compression chambers through the communication depression 63a and the communication depression 63b, and can appropriately control the supply amount of the refrigerating machine oil. .

(2)
In the scroll compressor 1 according to the first embodiment of the present invention, the orbiting scroll component 24 has one first communication hole 61 and one second communication hole 62, but a plurality of first communication holes, One second communication hole in the vicinity of each first communication hole and a plurality of communication depressions that temporarily communicate with the pair of the first communication hole and the second communication hole may be provided. Thereby, the scroll compressor according to the present modification can appropriately control the supply amount of the refrigerating machine oil.

(3)
In the scroll compressor 1 according to the first embodiment of the present invention, the fixed scroll component 26 has one communication recess 63, but does not have to have a communication recess as shown in FIG. 15. . In the scroll compressor 1 ′ having the fixed scroll part 26 ″ that does not have the communication recess, first, the refrigerating machine oil inside the first communication hole 61 is in contact with the second opening 72. It adheres to the surface of the second end plate 26a. Next, when the orbiting scroll component 24 orbits by a certain angle, the refrigerating machine oil adhering to the surface of the second end plate 26a is guided to the fourth opening 74 of the second communication hole 62 via the lap sliding surface. . As a result, the refrigeration oil is supplied to the second space 37b via the second communication hole 62. Next, the orbiting scroll component 24 orbits to return to the initial state. Thereby, scroll compressor 1 'concerning this modification can supply refrigerating machine oil intermittently to a lap sliding surface and the 2nd space 37b, and scroll compressor 1 concerning a 1st embodiment of the present invention. Similarly, the lubrication characteristics of the lap sliding surface and the airtightness of the compression chamber 40 can be secured, and the leakage of the refrigerant gas can be avoided.

  The scroll compressor according to the present invention can supply refrigeration oil intermittently to a compression chamber and the like, and can appropriately control the supply amount of the refrigeration oil. Therefore, by providing the scroll compressor according to the present invention in an air conditioner or the like, efficient operation of the air conditioner or the like becomes possible.

1, 1 'scroll compressor 24 orbiting scroll component 24a first end plate 24b first wrap 26, 26''fixed scroll component 26a second end plate 26b second lap 34 second bearing portion 61 first communication hole 62 second communication hole 63 Communication depression 71 1st opening 72 2nd opening 73 3rd opening 74 4th opening

JP 2006-118395 A JP 2005-188294 A

Claims (4)

A first end plate (24a), a first wrap (24b) formed by holding a spiral shape from a first plane of the first end plate in a direction perpendicular to the first plane, and the first plane A second bearing portion (34) fixedly held on the second surface which is the back surface, a first opening (71) opening in the second surface inside the second bearing portion, and an end surface of the first lap A first communication hole (61) having a second opening (72) opening in the second opening, a third opening (73) opening in the second surface outside the second bearing portion, and an end surface of the first lap. An orbiting scroll component (24) including a second communication hole (62) having a fourth opening (74) opening;
A second end plate (26a) and a second wrap (26b) that is formed to hold a spiral shape from a third plane of the second end plate in a direction perpendicular to the third plane and meshes with the first lap. And a communication recess (63) that is open in the third plane and that is temporarily in communication with both the first communication hole and the second communication hole during the orbiting motion of the orbiting scroll component. (26)
A scroll compressor (1).   The scroll compressor according to claim 1, wherein the fixed scroll component has a plurality of the communication recesses.   The orbiting scroll component has a plurality of the first communication holes and a plurality of the second communication holes opened in the vicinity of each of the first communication holes, and one of the first communication holes and one of the first communication holes. 3. The scroll compressor according to claim 2, wherein the second communication hole that opens in the vicinity of the communication hole temporarily communicates with at least one of the communication depressions during the orbiting motion of the orbiting scroll component. A first end plate (24a), a first wrap (24b) formed by holding a spiral shape from a first plane of the first end plate in a direction perpendicular to the first plane, and the first plane A second bearing portion (34) fixedly held on the second surface which is the back surface, a first opening (71) opening in the second surface inside the second bearing portion, and an end surface of the first lap A first communication hole (61) having a second opening (72) opening in the second opening, a third opening (73) opening in the second surface outside the second bearing portion, and an end surface of the first lap. An orbiting scroll component (24) including a second communication hole (62) having a fourth opening (74) opening;
A second end plate (26a) and a second wrap (26b) that is formed to hold a spiral shape from a third plane of the second end plate in a direction perpendicular to the third plane and meshes with the first lap. ) And a fixed scroll part (26 ″),
A scroll compressor (1 ') comprising:

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