TH50221A - Device and method for aligning a spiral compressor - Google Patents

Abstract

DC60 (20/11/44) A fixed spiral motion method has been established. Which makes it possible to move a fixed spiral of The volute compressors in the X- and Y-axis directions and the reverse-orbital rotation compensation method make it possible to rotate the orbital in the theta direction by means of the main shape. The angle is the best. The fixed spirals relative to the orbiting whirls and the most effective cladding gap were determined at the same time. While in the spiral orbital motion Therefore, the alignment of the volute compressor part Was done in a short time And with high fidelity Includes setting the position of the spiral direction of rotation. Relative to the orbital spirals A fixed spiral movement method has been established. Which makes it possible to move a fixed spiral of The volute compressors in the X- and Y-axis directions and the reverse-orbital rotation compensation method make it possible to rotate the orbit in the theta direction by means of the main shape. The angle is the best. The fixed spirals relative to the orbiting whirls and the most effective cladding gap were determined at the same time. While in the spiral orbital motion Therefore, the alignment of the volute compressor part Was done in a short time And with high fidelity Includes setting the position of the spiral direction of rotation. Relative to the orbital spirals

Claims (1)

1.Device for aligning the volute compressor Fixed spiral included And the orbiting spiral consists of an upright spiral covering Are shown on the base plate respectively And inside is a drive room By bringing the spirals together And the main shape has the propulsion shaft of the orbiting spiral The orbital spiral facilitates the above shape. In the story enabling The orbital motion by the oldham coupling is characterized in the form of a device that consists of a radical motion method: