SCROLL COMPRESSOR
A scroll compressor includes a first scroll, the first scroll including a first end plate and a first scroll wrap extending from the first end plate along a first direction; a second scroll, the second scroll including a second end plate and a second scroll wrap protruding from the second end plate along a second direction opposite to the first direction, the second scroll wrap and the first scroll wrap cooperating to form a compression cavity used for compressing a medium; a support located at a side of the second scroll away from the first scroll; a motor; and a driving member rotatably supported by the support and located at the side of the second scroll away from the first scroll. The motor drives the first scroll to rotate through the driving member, and the first scroll drives the second scroll to rotate. The scroll compressor is compact in structure, small in volume, and light in weight.
This application is a National Stage application of International Patent Application No. PCT/CN2022/143315, filed on Dec. 29, 2022, which claims priority to Chinese Patent Applications No. 202111681235.8, filed on Dec. 31, 2021, and No. 202123449504.6, filed on Dec. 31, 2021, each of which is hereby incorporated by reference in its entirety.
TECHNICAL FIELDEmbodiments of the present invention relate to a scroll compressor.
BACKGROUNDA conventional scroll compressor includes a fixed scroll and an orbiting scroll. The fixed scroll has an end plate and a fixed scroll wrap protruding from the end plate. The orbiting scroll has an end plate and an orbiting scroll wrap protruding from the end plate of the orbiting scroll. The orbiting scroll wrap and the fixed scroll wrap cooperate to form a compression cavity for compressing a medium. A motor drives, through a drive shaft, the orbiting scroll to orbit, in order to compress the medium in the compression cavity.
SUMMARYIt is an object of the embodiments of the present invention to provide a scroll compressor, thereby, for example, improving the performance of the scroll compressor.
An embodiment of the present invention provides a scroll compressor including: a first scroll including a first end plate and a first scroll wrap protruding from the first end plate along a first direction; a second scroll including a second end plate and a second scroll wrap protruding from the second end plate along a second direction opposite to the first direction, the second scroll wrap and the first scroll wrap cooperating to form a compression cavity for compressing a medium; a support located on a side of the second scroll away from the first scroll; a motor; and a driving member rotatably supported by the support and located on the side of the second scroll away from the first scroll, the motor driving the first scroll to rotate through the driving member, and the first scroll driving the second scroll to rotate.
According to an embodiment of the present invention, the scroll compressor further includes: a connecting member connecting the first scroll to the driving member.
According to an embodiment of the present invention, the first scroll further includes an outer wall protruding from the first end plate along the first direction, the outer wall is on a radially outer side of the first scroll wrap and the second scroll, the outer wall is provided with the connecting member, and the driving member is connected to the first scroll through the connecting member.
According to an embodiment of the present invention, the outer wall has an annular shape.
According to an embodiment of the present invention, the driving member includes: a hub portion having an inner hole, the hub portion including a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion of the driving member, the driving member being connected to the first scroll through the flange portion.
According to an embodiment of the present invention, the scroll compressor further includes: a fixed shaft fixed to the support, the driving member being rotatably mounted to the support by rotatably mounting the hub portion of the driving member to the fixed shaft.
According to an embodiment of the present invention, the second end plate of the second scroll is rotatably supported by the flange portion of the driving member.
According to an embodiment of the present invention, all bearings of the scroll compressor are disposed on a side of the second end plate of the second scroll facing the first direction.
According to an embodiment of the present invention, the scroll compressor further includes: a first bearing, the first end of the hub portion being mounted to the fixed shaft through the first bearing; and/or a second bearing, the second end of the hub portion being mounted to the fixed shaft through the second bearing.
According to an embodiment of the present invention, the second scroll further includes a hub portion protruding from the second end plate along the first direction, the fixed shaft has an axial inner hole, the scroll compressor further includes a third bearing, the hub portion of the second scroll being mounted in the axial inner hole of the fixed shaft through the third bearing.
According to an embodiment of the present invention, a hole wall of the inner hole of the hub portion of the driving member has a stepped portion, and the stepped portion of the hub portion of the driving member has a stepped surface facing the second direction, the fixed shaft has a stepped portion, and the stepped portion of the fixed shaft has a stepped surface facing the first direction, the scroll compressor further includes a first thrust bearing, the first thrust bearing being disposed between the stepped surface of the stepped portion of the hub portion of the driving member and the stepped surface of the stepped portion of the fixed shaft.
According to an embodiment of the present invention, the support includes: a cylindrical portion, and a flange portion radially protruding from the cylindrical portion of the support, the second end of the hub portion of the driving member being supported by the flange portion of the support.
According to an embodiment of the present invention, a part of the fixed shaft is inserted into the cylindrical portion of the support and fixed to the cylindrical portion of the support, and the fixed shaft has a cylindrical shape.
According to an embodiment of the present invention, a surface of the second end plate of the second scroll has a first oil groove on an annular contact area between the second end plate of the second scroll and the flange portion of the driving member, the first oil groove extends transversely across a part of the annular contact area from a radially inner side of the annular contact area towards a radially outer side of the annular contact area, and the first oil groove is spaced radially from a radially outer edge of the annular contact area.
According to an embodiment of the present invention, the first oil groove extends along a radial direction.
According to an embodiment of the present invention, an annular recess is formed on the surface of the second end plate of the second scroll, the annular recess is on the radially inner side of the annular contact area, and the first oil groove extends transversely from a radially outer edge of the annular recess towards the radially outer side of the annular contact area and communicates with the annular recess.
According to an embodiment of the present invention, the scroll compressor further includes: a second thrust bearing disposed between the second end plate of the second scroll and the flange portion of the driving member.
According to an embodiment of the present invention, one of an end surface of the second end of the hub portion of the driving member and a surface of the flange portion of the support has a second oil groove on an annular contact area between the second end of the hub portion of the driving member and the flange portion of the support, the second oil groove extends transversely across a part of the annular contact area from a radially inner side of the annular contact area towards a radially outer side of the annular contact area, and the second oil groove is spaced radially from a radially outer edge of the annular contact area.
According to an embodiment of the present invention, the second oil groove extends along a radial direction.
According to an embodiment of the present invention, the second oil groove is formed on the end surface of the second end of the hub portion of the driving member.
According to an embodiment of the present invention, the second oil groove is spaced apart from an outer periphery of the end surface of the second end of the hub portion of the driving member.
According to an embodiment of the present invention, the scroll compressor further includes: a third thrust bearing disposed between the second end of the hub portion of the driving member and the flange portion of the support
According to an embodiment of the present invention, the motor includes a rotor and a stator fixed to the support, and the rotor of the motor drives the first scroll to rotate through the driving member.
According to an embodiment of the present invention, the rotor of the motor is disposed on a side of the stator facing the first direction or the second direction.
According to an embodiment of the present invention, the driving member includes: a hub portion having an inner hole, the hub portion including a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion, the flange portion of the driving member is tightly connected to the outer wall of the first scroll, to form a suction cavity of the scroll compressor, and fluid enters the compression cavity through the suction cavity.
According to an embodiment of the present invention, the driving member includes at least one fluid passage formed in the flange portion of the driving member, the fluid passage has a fluid inlet which is formed in a surface of the flange portion of the driving member facing the first direction and a fluid outlet which is formed in a surface of the flange portion of the driving member facing the second direction, so that fluid enters the fluid passage through the fluid inlet of the fluid passage, and enters the suction cavity from the fluid outlet.
According to an embodiment of the present invention, the fluid passage extends along an axial direction of the driving member.
According to an embodiment of the present invention, the fluid passage extends obliquely relative to an axial direction of the driving member, and the fluid outlet of the fluid passage is farther from a rotation axis of the driving member than the fluid inlet.
According to an embodiment of the present invention, the outer wall has a recess at a position corresponding to a position of the fluid outlet of the fluid passage, the recess is formed on a surface of the outer wall facing a rotation axis of the first scroll, and a wall surface of the recess facing the rotation axis of the first scroll is gradually inclined or curved towards the rotation axis of the first scroll in a direction towards the first end plate of the first scroll.
According to an embodiment of the present invention, the driving member includes two fluid passages opposite to each other in a radial direction of the driving member.
According to an embodiment of the present invention, the fluid passage of the driving member has a circular, oval or curved cross section.
According to an embodiment of the present invention, the driving member includes: a hub portion having an inner hole, the hub portion including a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion of the driving member, the driving member being connected to the first scroll through the flange portion, the outer wall of the first scroll has a scroll pin hole, and the flange portion of the driving member has a driving-member pin hole, the outer wall of the first scroll has a scroll connection hole, the flange portion of the driving member has a driving-member connection hole, one of the driving-member connection hole of the flange portion of the driving member and the scroll connection hole of the outer wall of the first scroll has a threaded portion, and the connecting member includes: a pin inserted into the scroll pin hole of the outer wall of the first scroll and the driving-member pin hole of the flange portion of the driving member, to determine a relative position of the first scroll and the driving member, and a bolt, the bolt fixedly connecting the first scroll to the driving member through the scroll connection hole and the driving-member connection hole.
According to an embodiment of the present invention, the scroll compressor further includes: an annular protrusion protruding from one of a surface of the second end plate of the second scroll and a surface of the flange portion of the driving member, the annular protrusion has an annular wedge-shaped protrusion portion, a cross section of the wedge-shaped protrusion portion in a radial direction has a wedge shape, and the wedge-shaped protrusion portion has a wedge-shaped protrusion surface facing axially outwards, in the cross section in the radial direction, the wedge-shaped protrusion surface has a largest axial distance from said one surface at a first wedge-shaped protrusion point in the radial direction, and an axial distance of zero from said one surface at a second wedge-shaped protrusion point in the radial direction, and at least a portion of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point is in an annular area of the surface of the flange portion of the driving member for supporting the surface of the second end plate of the second scroll.
According to an embodiment of the present invention, at least the portion of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point is in an annular contact area between the second end plate of the second scroll and the flange portion of the driving member.
According to an embodiment of the present invention, at the first wedge-shaped protrusion point, the axial distance between the wedge-shaped protrusion surface and said one surface is in a range of 0.1 microns to 1 mm.
According to an embodiment of the present invention, at the first wedge-shaped protrusion point, the axial distance between the wedge-shaped protrusion surface and said one surface is in a range of 20 microns to 40 microns.
According to an embodiment of the present invention, the first wedge-shaped protrusion point is on a radially outer side of the second wedge-shaped protrusion point.
According to an embodiment of the present invention, the first wedge-shaped protrusion point is on a radially inner side of the second wedge-shaped protrusion point.
According to an embodiment of the present invention, the annular protrusion is on the surface of the flange portion of the driving member.
According to an embodiment of the present invention, the annular protrusion is on the surface of the second end plate of the second scroll.
According to an embodiment of the present invention, the annular protrusion further has an annular transition protrusion portion, the transition protrusion portion has a transition protrusion surface facing axially outwards, in the cross section in the radial direction, the transition protrusion surface extends from a point of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point to said one surface in such a manner as to run away from the second wedge-shaped protrusion point and towards said one surface.
According to an embodiment of the present invention, a cross section of the transition protrusion portion in the radial direction has a wedge shape.
According to an embodiment of the present invention, a size of the transition protrusion portion in the radial direction is smaller than a size of the wedge-shaped protrusion portion in the radial direction.
According to an embodiment of the present invention, the scroll compressor further includes: a shell; wherein the first scroll, the second scroll, the support, the motor and the driving member are located in the shell, and an end of the support is fixed to a bottom of the shell.
According to an embodiment of the present invention, the shell includes a first shell, a second shell and a third shell; the first shell is connected to the second shell to form a sealed space; and the second shell is connected to the third shell to define a discharge cavity; and the sealed space accommodates the first scroll, the second scroll, the support, the motor and the driving member, wherein the support is fixed to the first shell.
According to an embodiment of the present invention, the scroll compressor further includes: an oil feeding screw received in the inner hole of the fixed shaft, and having one end located in a sump at a bottom of the shell and the other end connected to the hub portion of the second scroll.
According to an embodiment of the present invention, the driving member further includes an eccentric ring hole formed in the flange portion, the second end plate of the second scroll has a coupling pin hole therein, an eccentric ring is disposed in the eccentric ring hole, and a coupling pin is inserted into the coupling pin hole and a hole of the eccentric ring.
For example, with the scroll compressor according to the embodiment of the present invention, for example, the performance of the scroll compressor can be improved.
Embodiments of the present invention will be described below in conjunction with the accompanying drawings.
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According to an embodiment of the present invention, all bearings of the scroll compressor 100 may be disposed on a side of the second end plate 123 of the second scroll 12 facing the first direction D1. Any bearing may not be disposed on a side of the first end plate 112 of the first scroll 11 of the scroll compressor 100 facing the second direction D2.
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For example, most or all of the portion of the wedge-shaped protrusion surface 7310 corresponding to the first wedge-shaped protrusion point P1 and the rest of the wedge-shaped protrusion surface 7310 are located in the annular contact area between the second end plate 123 of the second scroll 12 and the flange portion 32 of the driving member 3. According to an example of the present invention, at the first wedge-shaped protrusion point P1, the axial distance between the wedge-shaped protrusion surface 7310 and the surface 320 (the embodiment shown in
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When the compressor 100 is in operation, referring to
With the scroll compressor according to the embodiment of the present invention, since the first scroll and the second scroll corotate around respective rotation axes, the compression efficiency is improved. In addition, an axial flux motor may be used, which can decrease the size of the motor, thereby making the structure of the compressor more compact. In addition, due to the structural design of the driving member, the first scroll can be driven to rotate by the driving member, and the second scroll can be driven to rotate by the first scroll, so that all bearings may be further arranged on the same side of the compressor, such as the same side of the second scroll in the first direction D1, so that the structure of the compressor can be further made compact.
Although the above embodiments have been described, some features of the above embodiments may be combined to form new embodiments.
Claims
1. A scroll compressor comprising:
- a first scroll comprising a first end plate and a first scroll wrap protruding from the first end plate along a first direction;
- a second scroll comprising a second end plate and a second scroll wrap protruding from the second end plate along a second direction opposite to the first direction, the second scroll wrap and the first scroll wrap cooperating to form a compression cavity for compressing a medium;
- a support located on a side of the second scroll away from the first scroll;
- a motor; and
- a driving member rotatably supported by the support and located on the side of the second scroll away from the first scroll, the motor driving, through the driving member, the first scroll to rotate, and the first scroll driving the second scroll to rotate.
2. The scroll compressor of claim 1, further comprising:
- a connecting member connecting the first scroll to the driving member.
3. The scroll compressor of claim 2, wherein
- the first scroll further comprises an outer wall protruding from the first end plate along the first direction, the outer wall is on a radially outer side of the first scroll wrap and a radially outer side of the second scroll, the outer wall is provided with the connecting member, and the driving member is connected to the first scroll through the connecting member.
4. The scroll compressor of claim 3, wherein
- the outer wall has an annular shape.
5. The scroll compressor of claim 1, wherein
- the driving member comprises: a hub portion having an inner hole, the hub portion comprising a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion of the driving member, the driving member being connected to the first scroll through the flange portion.
6. The scroll compressor of claim 5, further comprising:
- a fixed shaft fixed to the support,
- the driving member being rotatably mounted to the support by mounting rotatably the hub portion of the driving member to the fixed shaft.
7. The scroll compressor of claim 5, wherein
- the second end plate of the second scroll is rotatably supported by the flange portion of the driving member.
8. The scroll compressor of claim 1, wherein
- all bearings of the scroll compressor are disposed on a side of the second end plate of the second scroll facing the first direction.
9. The scroll compressor of claim 6, further comprising:
- a first bearing, the first end of the hub portion being mounted to the fixed shaft through the first bearing; and/or
- a second bearing, the second end of the hub portion being mounted to the fixed shaft through the second bearing.
10. The scroll compressor of claim 9, wherein
- the second scroll further comprises a hub portion protruding from the second end plate along the first direction,
- the fixed shaft has an axial inner hole, and
- the scroll compressor further comprises a third bearing, the hub portion of the second scroll being mounted in the axial inner hole of the fixed shaft through the third bearing.
11. The scroll compressor of claim 6, wherein
- a hole wall of the inner hole of the hub portion of the driving member has a stepped portion, and the stepped portion of the hub portion of the driving member has a stepped surface facing the second direction,
- the fixed shaft has a stepped portion, and the stepped portion of the fixed shaft has a stepped surface facing the first direction, and
- the scroll compressor further comprises a first thrust bearing, the first thrust bearing being disposed between the stepped surface of the stepped portion of the hub portion of the driving member and the stepped surface of the stepped portion of the fixed shaft.
12. The scroll compressor of claim 6, wherein
- the support comprises: a cylindrical portion, and a flange portion protruding radially from the cylindrical portion of the support, the second end of the hub portion of the driving member being supported by the flange portion of the support.
13. The scroll compressor of claim 12, wherein
- a part of the fixed shaft is inserted into the cylindrical portion of the support and fixed to the cylindrical portion of the support, and the fixed shaft has a cylindrical shape.
14. The scroll compressor of claim 7, wherein
- a surface of the second end plate of the second scroll has a first oil groove on an annular contact area between the second end plate of the second scroll and the flange portion of the driving member, the first oil groove extends transversely across a part of the annular contact area from a radially inner side of the annular contact area towards a radially outer side of the annular contact area, and the first oil groove is spaced in a radial direction from a radially outer edge of the annular contact area.
15. The scroll compressor of claim 14, wherein
- the first oil groove extends along a radial direction.
16. The scroll compressor of claim 14, wherein
- an annular recess is formed on the surface of the second end plate of the second scroll, the annular recess is on the radially inner side of the annular contact area, and the first oil groove extends transversely from a radially outer edge of the annular recess towards the radially outer side of the annular contact area and communicates with the annular recess.
17. The scroll compressor of claim 7, further comprising:
- a second thrust bearing disposed between the second end plate of the second scroll and the flange portion of the driving member.
18. The scroll compressor of claim 12, wherein
- either an end surface of the second end of the hub portion of the driving member or a surface of the flange portion of the support is configured with a second oil groove on an annular contact area between the second end of the hub portion of the driving member and the flange portion of the support, the second oil groove extends transversely across a part of the annular contact area from a radially inner side of the annular contact area towards a radially outer side of the annular contact area, and the second oil groove is spaced in a radial direction from a radially outer edge of the annular contact area.
19. The scroll compressor of claim 18, wherein
- the second oil groove extends along a radial direction.
20. The scroll compressor of claim 18, wherein
- the second oil groove is formed on the end surface of the second end of the hub portion of the driving member.
21. The scroll compressor of claim 20, wherein
- the second oil groove is spaced apart from an outer periphery of the end surface of the second end of the hub portion of the driving member.
22. The scroll compressor of claim 12, further comprising:
- a third thrust bearing disposed between the second end of the hub portion of the driving member and the flange portion of the support.
23. The scroll compressor of claim 1, wherein
- the motor comprises a rotor and a stator fixed to the support, and the rotor of the motor drives, through the driving member, the first scroll to rotate.
24. The scroll compressor of claim 23, wherein
- the rotor of the motor is disposed on a side of the stator facing the first direction or the second direction.
25. The scroll compressor of claim 4, wherein
- the driving member comprises: a hub portion having an inner hole, the hub portion comprising a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion, the flange portion of the driving member is tightly connected to the outer wall of the first scroll, to form a suction cavity of the scroll compressor, and fluid enters the compression cavity through the suction cavity.
26. The scroll compressor of claim 25, wherein
- the driving member comprises at least one fluid passage formed in the flange portion of the driving member, the fluid passage has a fluid inlet which is formed in a surface of the flange portion of the driving member facing the first direction and a fluid outlet which is formed in a surface of the flange portion of the driving member facing the second direction, so that fluid enters the fluid passage through the fluid inlet of the fluid passage, and enters the suction cavity from the fluid outlet.
27. The scroll compressor of claim 26, wherein
- the fluid passage extends along an axial direction of the driving member.
28. The scroll compressor of claim 26, wherein
- the fluid passage extends obliquely relative to an axial direction of the driving member, and the fluid outlet of the fluid passage is farther than the fluid inlet away from a rotation axis of the driving member.
29. The scroll compressor of claim 28, wherein
- the outer wall has a recess at a position corresponding to a position of the fluid outlet of the fluid passage, the recess is formed on a surface of the outer wall facing a rotation axis of the first scroll, and a wall surface of the recess facing the rotation axis of the first scroll is gradually inclined or curved towards the rotation axis of the first scroll in a direction towards the first end plate of the first scroll.
30. The scroll compressor of claim 26, wherein
- the driving member comprises two fluid passages opposite to each other in a radial direction of the driving member.
31. The scroll compressor of claim 26, wherein
- the fluid passage of the driving member has a circular, oval or curved cross section.
32. The scroll compressor of claim 3, wherein
- the driving member comprises: a hub portion having an inner hole, the hub portion comprising a first end and a second end opposite to each other; and a flange portion protruding radially outwards from the first end of the hub portion of the driving member, the driving member being connected to the first scroll through the flange portion,
- the outer wall of the first scroll has a scroll pin hole, and the flange portion of the driving member has a driving-member pin hole,
- the outer wall of the first scroll has a scroll connection hole, the flange portion of the driving member has a driving-member connection hole, one of the driving-member connection hole of the flange portion of the driving member and the scroll connection hole of the outer wall of the first scroll has a threaded portion, and
- the connecting member comprises:
- a pin, inserted into the scroll pin hole of the outer wall of the first scroll and into the driving-member pin hole of the flange portion of the driving member, to determine a relative position of the first scroll and the driving member, and
- a bolt, fixedly connecting the first scroll to the driving member through the scroll connection hole and the driving-member connection hole.
33. The scroll compressor of claim 7, further comprising:
- an annular protrusion protruding from one of a surface of the second end plate of the second scroll and a surface of the flange portion of the driving member, wherein the annular protrusion has an annular wedge-shaped protrusion portion, a cross section of the wedge-shaped protrusion portion in a radial direction has a wedge shape, and the wedge-shaped protrusion portion has a wedge-shaped protrusion surface facing axially outwards;
- in the cross section in the radial direction, the wedge-shaped protrusion surface has a largest axial distance from said one surface at a first wedge-shaped protrusion point in the radial direction, and an axial distance of zero from said one of surface at a second wedge-shaped protrusion point in the radial direction, and at least a portion of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point is in an annular area of the surface of the flange portion of the driving member for supporting the surface of the second end plate of the second scroll.
34. The scroll compressor of claim 33, wherein
- at least the portion of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point is in an annular contact area between the second end plate of the second scroll and the flange portion of the driving member.
35. The scroll compressor of claim 33, wherein
- at the first wedge-shaped protrusion point, the axial distance between the wedge-shaped protrusion surface and said one surface is in a range of 0.1 microns to 1 mm or in a range of 20 microns to 40 microns.
36. (canceled)
37. The scroll compressor of claim 33, wherein
- the first wedge-shaped protrusion point is on a radially outer side of the second wedge-shaped protrusion point, or
- is on a radially inner side of the second wedge-shaped protrusion point.
38. (canceled)
39. The scroll compressor of claim 33, wherein
- the annular protrusion further has an annular transition protrusion portion, the transition protrusion portion has a transition protrusion surface facing axially outwards;
- in the cross section in the radial direction, the transition protrusion surface extends from a point of the wedge-shaped protrusion surface corresponding to the first wedge-shaped protrusion point to said one surface in such a manner as to run away from the second wedge-shaped protrusion point and towards said one surface.
40. The scroll compressor of claim 39, wherein
- a cross section of the transition protrusion portion in the radial direction has a wedge shape.
41. The scroll compressor of claim 39, wherein
- a size of the transition protrusion portion in the radial direction is smaller than a size of the wedge-shaped protrusion portion in the radial direction.
42. The scroll compressor of claim 1, further comprising:
- a shell;
- wherein the first scroll, the second scroll, the support, the motor and the driving member are located in the shell, and an end of the support is fixed to a bottom of the shell.
43. The scroll compressor of claim 42, wherein
- the shell comprises a first shell, a second shell and a third shell;
- the first shell is connected to the second shell to form a sealed space; and the second shell is connected to the third shell to define a discharge cavity; and
- the sealed space accommodates the first scroll, the second scroll, the support, the motor and the driving member, wherein the support is fixed to the first shell.
44. The scroll compressor of claim 42, further comprising: an oil feeding screw arranged in the inner hole of the fixed shaft, and having one end located in a sump at the bottom of the shell and the other end connected to the hub portion of the second scroll.
45. The scroll compressor of claim 1, wherein
- the driving member further comprises an eccentric ring hole formed in the flange portion, the second end plate of the second scroll has a coupling pin hole, an eccentric ring is disposed in the eccentric ring hole, and a coupling pin is inserted into the coupling pin hole and a hole of the eccentric ring.
Type: Application
Filed: Dec 29, 2022
Publication Date: Feb 27, 2025
Inventors: Yusong SUN (Tianjin), Li YAO (Tianjin), Wanzhen LIU (Tianjin), Yan LIN (Tianjin), Xishuang ZHANG (Tianjin), Sanxiang LIU (Tianjin)
Application Number: 18/725,475