RU2019112862A

RU2019112862A - SEMI-HERMETIC REFRIGERANT COMPRESSOR

Info

Publication number: RU2019112862A
Application number: RU2019112862A
Authority: RU
Inventors: Райнер ГРОССЕ-КРАХТ; Херманн РЕНЦ; Эдуардо МАРТИН; Йенс МАННЕВИТЦ
Original assignee: Битцер Кюльмашиненбау Гмбх
Priority date: 2016-10-07
Filing date: 2016-10-07
Publication date: 2020-11-09
Also published as: AU2016425930B2; EP3523537A1; CN113294311A; RU2019112862A3; CN113294311B; DK3523537T3; AU2016425930A1; WO2018065071A1; ES2981313T3; RU2745598C2; CN109715945A; US20190234392A1; EP4276311A2; EP3523537B1; PL3523537T3; CN109715945B; BR112019006964A2; EP4276311A3

Claims

1. Semi-hermetic refrigerant compressor containing a reciprocating compressor (12) and an electric motor (14), a common housing (10), which has a motor section (24) of a housing for an electric motor and a compressor section (22) of a housing for a piston compressor (12), leading from the suction pipe (232) in the common housing (10) to the inlet chamber (94) of the piston compressor (12), the refrigerant path located on the suction side and leading from the outlet chamber (96) of the piston compressor (12) to the discharge pipe (216) on the common casing (10), the refrigerant path located on the pressure side, and at the compressor section (22) of the casing there is provided at least one cylinder (82, 84) of the piston compressor (12), which is movable in the compressor section (22) of the housing of the opening (72, 74) of the cylinder, the piston (66, 68), the valve plate (88) closing the opening (72, 74) of the cylinder and enclosing the valve plate (88) and forming the h the part of the compressor section (22) of the housing, the head (92) of the cylinder block,

characterized in that the electric motor (14) is made in the form of a synchronous motor, in the rotor (272) of which there are permanent magnets (292) for synchronous operation of the electric motor (14) and a short-circuited cage (276) for starting the electric motor (14) in asynchronous operation ...

2. A refrigerant compressor according to claim 1, characterized in that the permanent magnets (292) extend parallel to the rotor axis (282) of the rotor (272).

3. Refrigerant compressor according to claim 2, characterized in that the permanent magnets (292) are made in the form of plate bodies, the flat sides (294) of which extend in the longitudinal direction (296) and in the transverse direction (298) running across the longitudinal direction.

4. Refrigerant compressor according to one of the preceding claims, characterized in that each of the permanent magnets (292) extends its longitudinal direction (296) parallel to the rotor axis (282).

5. Refrigerant compressor according to one of the preceding claims, characterized in that the permanent magnets (292) with their transverse directions (298) extend along the outer edges of a geometric polygon symmetrical about the rotor axis (282).

6. Refrigerant compressor according to one of the preceding claims, characterized in that the plate-shaped permanent magnets (292) have on their opposite flat sides (294), one of which faces the rotor axis (282), and the other - away from the rotor axis (282), different magnetic polarity (N, S).

7. Refrigerant compressor according to one of the preceding claims, characterized in that the refrigerant path on the suction side penetrates the motor housing (24) to cool the electric motor (14).

8. Semi-hermetic refrigerant compressor containing a piston compressor (12) and an electric motor (14), a common housing (10), which has a motor section (24) of a housing for an electric motor and a compressor section (22) of a housing for a piston compressor (12), leading from the suction pipe (232) in the common housing (10) to the inlet chamber (94) of the piston compressor (12), the refrigerant path located on the suction side and leading from the outlet chamber (96) of the piston compressor (12) to the discharge pipe (216) on the common casing (10), the refrigerant path located on the pressure side, and at the compressor section (22) of the casing there is provided at least one cylinder (82, 84) of the piston compressor (12), which is movable in the compressor section (22) of the housing of the opening (72, 74) of the cylinder, the piston (66, 68), the valve plate (88) closing the opening (72, 74) of the cylinder and enclosing the valve plate (88) and forming the h the part of the compressor section (22) of the housing, the head (92) of the cylinder block,

characterized in that the refrigerant compressor is equipped with an externally controlled mechanical capacity control unit (142).

9. Semi-hermetic refrigerant compressor containing a piston compressor (12) and an electric motor (14), a common housing (10), which has a motor section (24) of a housing for an electric motor and a compressor section (22) of a housing for a piston compressor (12), leading from the suction pipe (232) in the common housing (10) to the inlet chamber (94) of the piston compressor (12), the refrigerant path located on the suction side and leading from the outlet chamber (96) of the piston compressor (12) to the discharge pipe (216) on the common casing (10), the refrigerant path located on the pressure side, and at the compressor section (22) of the casing there is provided at least one cylinder (82, 84) of the piston compressor (12), which is movable in the compressor section (22) of the housing of the opening (72, 74) of the cylinder, the piston (66, 68), the valve plate (88) closing the opening (72, 74) of the cylinder and enclosing the valve plate (88) and forming the h the part of the compressor section (22) of the housing, the head (92) of the cylinder block,

characterized in that, in order to reduce the capacity for at least one cylinder (82, 84), the mechanical capacity control unit (142) connects the outlet side refrigerant path with the intake side refrigerant path.

10. Refrigerant compressor according to claim 8 or 9, characterized in that the mechanical capacity control unit (142) is located on at least one cylinder head (92).

11. Refrigerant compressor according to claim 10, characterized in that the mechanical capacity control unit (142) is at least partially integrated into at least one cylinder head (92).

12. Refrigerant compressor according to one of paragraphs. 8-11, characterized in that in order to reduce performance, a mechanical capacity control unit (142) through a connecting channel (144) connects the outlet chamber (96) in the cylinder head (92) with an intake chamber (94) in the cylinder head (92) ...

13. Refrigerant compressor according to claim 12, characterized in that the connecting passage (144) is located integrated into the cylinder head (92).

14. Refrigerant compressor according to one of the preceding claims, characterized in that the outlet chamber (96) is located in the cylinder head (92), directly adjacent to at least one outlet (112, 114, 116, 118) for the respective cylinder (82, 84) in the valve plate (88).

15. Refrigerant compressor according to one of the preceding claims, characterized in that the inlet chamber (94) is located in the cylinder head, directly adjacent to the inlet (102, 104, 106, 108) for the corresponding cylinder (82, 84) in the valve plate (88).

16. Refrigerant compressor according to one of paragraphs. 8-15, characterized in that for closing the connecting channel (144), the mechanical unit (142) for capacity control has a locking piston (152).

17. Refrigerant compressor according to claim 16, characterized in that, in order to close the connecting channel (144), the shut-off piston (152) is adapted to fit on a sealing seat (148) which extends around the connecting channel (144).

18. Refrigerant compressor according to claim 16 or 17, characterized in that the sealing area (154) of the shut-off piston (152) is made of a metal that is less hard than the metal from which the seal seat (148) is made.

19. Refrigerant compressor according to claim 17 or 18, characterized in that the sealing seat (148) is located on the wall portion (124) of the cylinder head (92), which separates the inlet chamber (94) from the outlet chamber (96).

20. Refrigerant compressor according to one of paragraphs. 17-19, characterized in that the sealing seat (148) is located on the wall section (124) extending above the valve plate (88) and above the inlet chamber (94).

21. Refrigerant compressor according to one of paragraphs. 17-20, characterized in that the sealing seat (148) is located on the side of the inlet chamber (94) opposite the valve plate (88).

22. Refrigerant compressor according to one of paragraphs. 17-21, characterized in that, proceeding from the sealing seat (148), the stroke of the check piston (152) is in the range from a quarter to half of the average diameter of the connecting channel (144).

23. Refrigerant compressor according to one of the preceding claims, characterized in that the cylinder head (92) has an inlet chamber (94) and an outlet chamber (96) for a bank of cylinders (86) containing at least two cylinders (82, 84) ...

24. Refrigerant compressor according to one of the preceding claims, characterized in that a corresponding mechanical capacity control unit (142) is assigned to a cylinder bank (86).

25. Refrigerant compressor according to one of the preceding claims, characterized in that for N cylinder banks (86) in the refrigerant compressor, the mechanical capacity control unit (142) is assigned to at least N-1 cylinder banks (86).

26. Refrigerant compressor according to one of paragraphs. 23-25, characterized in that each row (86) of cylinders is associated with one mechanical unit (142) capacity control.

27. Refrigerant compressor according to one of the preceding claims, characterized in that a non-return valve (222) is provided on the compressor section (22) of the housing after the exposed mechanical unit (142) for controlling the performance of the refrigerant path.

28. Refrigerant compressor according to claim 27, characterized in that the check valve (222) has an outlet (212) provided in the valve plate (88) and a valve element (224) interacting with the valve plate (88).

29. Refrigerant compressor according to claim 28, characterized in that the valve element (224) is supported on the valve plate (88).

30. Refrigerant compressor according to one of paragraphs. 16-29, characterized in that the closing piston (152) in the direction of its engagement position with the sealing seat (148) is loaded by a compression spring (166).

31. Refrigerant compressor according to one of paragraphs. 16-30, characterized in that the check piston (152) is designed to be actuated by a pressure chamber (162), which, depending on the external control of the capacity control unit (142), is loaded either by suction pressure or high pressure.

32. Refrigerant compressor according to claim 31, characterized in that in the opening position of the shut-off piston (152), the pressure chamber (162) has a volume that is less than a third, preferably less than a quarter, of the maximum volume of the pressure chamber (162) in closing position.

33. Refrigerant compressor according to one of paragraphs. 8-32, characterized in that a control unit (182) contained in the capacity control unit (142) is provided, with the help of which the supply of pressure to the shut-off piston (152) is controlled.

34. Refrigerant compressor according to one of paragraphs. 8-33, characterized in that a capacity control system (138) is provided that controls at least one mechanical capacity control unit (142) according to the required compressor delivery capacity.

35. Refrigerant compressor according to one of the preceding claims, characterized in that a start control unit (312) is provided, which controls the start of the electric motor (14).

36. Refrigerant compressor according to claim 35, characterized in that for starting, the starting control unit (312) drives an electric motor (14) with switching of the windings to reduce the starting current.

37. Refrigerant compressor according to claim 35 or 36, characterized in that to start the electric motor (14), the starting control unit (312) supplies current to the stator (252) of the electric motor (14), first to the first partial winding (256), and then this - to the second partial winding (258).

38. Refrigerant compressor according to one of paragraphs. 35-37, characterized in that when the electric motor (14) is started, the start control unit (312) controls the capacity control system (138) so that when the electric motor (14) is started, the reciprocating compressor (12) operates only with a reduced compressor delivery capacity.

39. Refrigerant compressor according to claim 38, characterized in that the start control unit (312) controls the capacity control system (138) so that when the electric motor (14) is started, the reciprocating compressor (12) operates at the lowest possible compressor delivery capacity.

40. Refrigerant compressor according to one of the preceding claims, characterized in that the reciprocating compressor (12) operates with a suction pressure in the range of 10 bar to 50 bar.

41. Refrigerant compressor according to one of the preceding claims, characterized in that the reciprocating compressor (12) operates at a high pressure in the range from 40 bar to 160 bar.

42. Refrigerant compressor according to one of the preceding claims, characterized in that the reciprocating compressor (12) operates with carbon dioxide as refrigerant and is primarily designed for operation with carbon dioxide as refrigerant.