Patent ID: 11905951
Assignee: HANON SYSTEMS
Field: Engines, pumps, turbines (Mechanical engineering)
Classification: CPC F | IPC F

Claim 0:
1. A scroll compressor for compressing a gaseous fluid comprising:
a non-moving stator with a base plate and a spiral-shaped wall that extends from the base plate;
at least one outlet; and
a moving orbiter with a base plate and a spiral-shaped wall that extends from the base plate, wherein the base plate of the stator and the base plate of the orbiter are arranged relative to one another in such a way that the wall of the stator and the wall of the orbiter interlock with one another and create closed working chambers, wherein volumes and positions of the working chambers are changed in reaction to a rotary movement of the orbiter, wherein the wall of the stator and the wall of the orbiter are configured in such a way that a first end chamber of the working chambers and a second end chamber of the working chambers of a compression path, as well as an intermediate chamber arranged between the first end chamber and the second end chamber at inner ends of the wall of the stator and the wall of the orbiter are formed in an area of the at least one outlet based on a rotation angle of the orbiter, and wherein at least one of the wall of the stator and the wall of the orbiter in an area of the inner ends is configured in such a way that a gap is created between the wall of the stator and the wall of the orbiter as a flow path from the intermediate chamber to at least one of the first end chamber and the second end chamber or as a flow path from the first end chamber to the second end chamber based on the rotation angle of the orbiter, wherein a degree of opening of the flow path is dependent on the rotation angle of the orbiter, wherein as the rotation angle of the orbiter increases, the degree of opening of the flow path from the intermediate chamber to the at least one of the first end chamber and the second end chamber increases from 0 to a maximum, and the degree of opening of the flow path from the first end chamber to the second end chamber gradually increases from when the degree of opening of the flow path from the intermediate chamber to the at least one of the first end chamber and the second end chamber is the maximum.