RU2022119619A - REFRIGERANT COMPRESSOR - Google Patents

Claims (32)

1. Refrigerant compressor (10), containing a common housing (12) with a motor section (22) of the housing, in which the motor compartment (98) is located with an electric motor (102) provided in it, containing a stator (172) and a rotor (174) , and with the compressor section (24) of the housing, which has a compressor unit, characterized in that the common housing (12) has a first cover (14) and a second cover (18), between which extends the casing sleeve (16), which has a motor section (22) of the housing, as well as the compressor section (24) of the housing, in which the compressor block (26) is provided. 2. The refrigerant compressor according to claim 1, characterized in that at least one contact insert (252, 262) is provided in one of the covers (14, 18) for conducting electrical supply lines to the common housing (12). 3. The refrigerant compressor according to claim 2, characterized in that all electric lines drawn into the common housing (12) are led through at least one contact insert (252, 262) in at least one of the covers (14, 18) of the common body (12). 4. Refrigerant compressor according to one of the preceding claims, characterized in that the casing sleeve (16) has an approximately cylindrical shape, in particular a circular cylinder shape. 5. Refrigerant compressor according to one of the preceding claims, characterized in that the compressor section (24) of the housing has a cylinder block housing (52) with a cylinder head (54). 6. The refrigerant compressor according to claim 5, characterized in that the cylinder head (56) has a lower part (62) of the cylinder head located in the housing (52) of the cylinder block, which, in turn, carries a closing lower part (62 ) of the cylinder head, the upper part (66) of the cylinder head with at least one outlet chamber (82) integrated into it, and that the refrigerant connections (94, 96, 106) carried out in the common housing (12) are located either in the upper part (66) of the cylinder head, or in one of the covers (14, 18). 7. Refrigerant compressor according to one of the preceding claims, characterized in that the compressor block (26) is a two-stage compressor and that a medium pressure outlet chamber and a high pressure outlet chamber are provided in the upper part (66) of the cylinder head. 8. Refrigerant compressor according to one of the preceding claims, characterized in that the casing sleeve (16) is made of light metal, preferably aluminium. 9. The refrigerant compressor according to one of paragraphs. 1-5, characterized in that the compressor unit (26) is made in the form of a scroll compressor (280). 10. Refrigerant compressor according to one of the preceding claims, characterized in that it is designed for CO ₂ as refrigerant. 11. The refrigerant compressor according to one of the preceding claims, characterized in that the stator (172) is installed in the motor section (22) of the housing by means of bearing elements (192, 194) inserted into the motor section (22) of the housing, which on one side are adjacent to surfaces (184) for placing the stator in the motor section (22) of the housing, and on the other hand, they cover the stator (172) inserted into these bearing elements (192, 194) from its outer side (182) and serve as resilient-elastic supports with respect to surfaces (184) to accommodate the stator. 12. The refrigerant compressor according to claim 11, characterized in that the bearing elements (192, 194), covering the stator (172) and resiliently supporting it with respect to the surface (184) to accommodate the stator, act between the stator (172) and the motor section (22) of the housing, respectively, on opposite sides of the stator (172) and thereby keep the stator (172) centered with respect to the motor section (22) of the housing, both thermally and pressure-induced changes in the diameter of the surface (184) to accommodate of the stator, so that the installation of the stator (172) on resiliently-elastic supports with respect to the surface (184) for placing the stator provides compensation for changes in the diameter of the surface (184) for placing the stator in the motor section (22) of the housing, and at the same time ensures constant centering of the stator ( 172) in the motor section (22) of the housing. 13. The refrigerant compressor according to claim. 11 or 12, characterized in that the bearing elements (192, 194) have elastic bodies (202), the dimensions of which are set so that they are in all encountered during the operation of the compressor (10) of the refrigerant operational states of the motor section (22) of the housing are in an elastically deformed state. 14. The refrigerant compressor according to one of paragraphs. 11-13, characterized in that the bearing elements (192, 194) are located passing around the stator (172) and repeatedly support the stator in relation to the surface (184) to place the stator in the motor section (22) of the housing, respectively, on opposite sides of the axis ( 178) rotor. 15. The refrigerant compressor according to claim 13 or 14, characterized in that the bearing elements (192, 194) have elastic bodies (202) located around the rotor axis (178) at given angular distances. 16. The refrigerant compressor according to claim 15, characterized in that the cooling of the electric motor (102) is provided by passing the refrigerant between the surface (184) for placing the stator and the outer side of the stator (172) in a direction parallel to the rotor axis, with the flow around the bearing elements ( 192, 194). 17. The refrigerant compressor according to one of paragraphs. 13-16, characterized in that the resilient-elastic bodies (202) are positioned relative to each other by means of a tape (208) material positioning them relative to each other and passing along the perimeter around the stator (172). 18. The refrigerant compressor according to claim 17, characterized in that the elastic bodies (202) are molded into a tape material (208). 19. The refrigerant compressor of claim 17 or 18, characterized in that the tape material (208) is made in the form of an annular collar with open ends (210). 20. The refrigerant compressor according to one of paragraphs. 13-19, characterized in that the elastic body (202) are passing at an acute angle to the outer side (182) of the stator (172) and/or to the surface (184) to accommodate the stator between the plantar areas (228) and retaining areas (222), of which some are adjacent to the outer side (182) of the stator (172), and others - to the surface (184) to accommodate the stator, side areas (224, 226, 234, 236). 21. The refrigerant compressor according to claim 20, characterized in that the side regions (224, 226, 234, 236) allow the support regions (222) to resiliently move with respect to the plantar regions without causing the plantar regions (228) to move as a result or retaining regions (222) in the direction of circulation around the stator (172), since the elasto-elastic movement occurs predominantly in the lateral regions (224, 226, 234, 236). 22. The refrigerant compressor according to one of paragraphs. 13-21, characterized in that the elasto-elastic bodies (202) are molded, following one another, into an elasto-elastic tape material (208), so that successive support areas (222) are adjacent to the outer side (182) of the stator (172) or to the surface (184) for accommodating the stator, and successive sole areas (228) are adjacent to the surface (184) for accommodating the stator or to the outer side (182) of the stator (172). 23. The refrigerant compressor according to one of paragraphs. 13-22, characterized in that the elastic bodies (202) are located between the edge regions (212, 214) located along the perimeter around the stator (172) and the supporting regions (222) through the stator passing at an acute angle to the outer side (182) (172) and/or to the surface (184) to accommodate the stator, the side regions (234, 235) are connected to the edge regions (212, 214). 24. The refrigerant compressor according to claim 23, characterized in that the side regions (224, 226, 234, 236) connecting the retaining regions (222) with the sole regions (228), in addition to providing elastic support of the retaining regions (222) with respect to to the edge areas, also act as introductory bevels, providing the possibility of inserting the stator (172) into the bearing elements (192, 194) already adjacent to the surface (184) to accommodate the stator, and the insertion of the stator (172) is carried out parallel to the axis of the rotor of the electric motor. 25. The refrigerant compressor according to claim 24, characterized in that the supporting elements (192, 194) provide the possibility of disconnecting the stator (172) and the housing sleeve (16), and the supporting elements (192, 194) are made with the possibility of their installation in the housing sleeve (16) without cutting, and the stator (172) is made with the possibility of its installation without cutting by inserting it through the side areas (224, 226, 234, 236) made in the form of introductory bevels with the possibility of dismantling it by pulling it out, and the stator (172) deforms elastic bodies (202) when introduced. 26. The refrigerant compressor according to claim 23 or 24, characterized in that, on the one hand, the retaining regions (222) are adjacent to the outer side (182) of the stator (172) or to the surface (184) for accommodating the stator, and on the other hand, the edge areas (212, 214) are adjacent to the surface (184) to accommodate the stator or to the outer side (182) of the stator (172). 27. The refrigerant compressor according to one of paragraphs. 11-26, characterized in that the bearing elements (192, 194) are made of an elastic material, primarily of spring steel. 28. The refrigerant compressor according to one of paragraphs. 11-27, characterized in that the bearing elements (192, 194) located following each other in the direction of the rotor axis (178) are positioned in the motor section (22) of the housing at a distance from each other by means of a spacer element (244). 29. The refrigerant compressor according to claim 28, characterized in that the spacer element (244) is adjacent to the surface (184) for accommodating the stator in the motor section (22) of the housing in the same way as the bearing elements (192, 194), and holds bearing elements (192, 194) at a distance in the direction of the rotor axis, given by the length of the spacer element (244). 30. The refrigerant compressor according to claim 28 or 29, characterized in that the spacer (244), also enclosing the stator (172), is adjacent to the surface (184) for receiving the stator. 31. The refrigerant compressor according to one of paragraphs. 11-30, characterized in that one of the bearing elements (192) is positioned in relation to its position in the motor section (22) of the housing with the help of the step (146) following directly behind the surface (184) to accommodate the stator. 32. The refrigerant compressor according to claim 31, characterized in that the carrier element (192) is positioned against at least one side of the stage (146).