JPH078868Y2 - Hermetic compressor - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial field of application) The present invention relates to improvement of a drive shaft support structure in a hermetic compressor.

(Prior Art) Generally, in a hermetic compressor, a motor including a stator and a rotor and a compression element driven by a drive shaft of the motor are provided inside a hermetic casing, and the compression element is provided on the compression element side. The drive shaft is supported in a cantilever manner through a bearing. When the drive shaft is supported in a cantilever manner as described above, the drive shaft is rotated at a high speed particularly when the drive shaft is rotationally driven. Sometimes, the drive shaft bends, the rotor of the motor collides with the stator,
Further, the surface pressure between the drive shaft and the bearing becomes large, which causes a problem of seizure.

Therefore, conventionally, as disclosed in, for example, Japanese Utility Model Laid-Open No. 59-167982, and as shown in FIG. 3, a disk-shaped holding body (H) having an auxiliary bearing (B1) at the center is formed. The holder (H) inside the closed casing (C) and the motor (M).
Is fixed to the upper side of the motor (M), the upper side of the drive shaft (K) provided in the motor (M) is extended upward, and the extended tip end is supported by the bearing (B1). Axis (K)
The lower side of the drive shaft is supported by the bearing (B2) provided on the compression element (CP), that is, the upper and lower parts of the drive shaft (K) are supported by the bearings (B1) and (B2) in a cantilevered manner. Thus, the drive shaft (K) is prevented from bending during rotational driving, and the rotor (R) is prevented from colliding with the stator (S) of the motor (M), and seizure of the bearing is prevented. .

(Problems to be Solved by the Invention) In the hermetic compressor as described above, since the holding body (H) is fixed to the casing (C), the following problems occur during assembly. there were.

That is, in order to make the air gap (G) between the stator (S) and the rotor (R) in the motor (M) uniform, it is necessary to accurately align the stator (S) and the rotor (R). Besides, due to the interposition of the holding body (H),
It is also necessary to align the auxiliary bearing (B1) provided on the holder (H) and the drive shaft (K) coupled to the rotor (R). However, since the holding body (H) is fixed to the casing (C), the axis of the auxiliary bearing (B1) depends on the mounting state of the holding body (H) to the casing (C). . On the other hand, the axial center of the stator (S) also depends on the mounting state of the stator (S) in the casing (C). Here, in order to fix the holding body (H) or the stator (S) to the casing (C), fixing means such as press fitting or shrink fitting is generally adopted, so that the casing (C) is fixed. The reference centering usually involves an error due to material deformation and the like, and since the casing (C) is not a highly accurate component, the auxiliary bearing (B1) and the stator (S) The axis of and will not match. Therefore, the drive shaft (K) coupled to the rotor (R)
If the upper part of the above is inserted into the auxiliary bearing (B1), the air gap (G) between the stator (S) and the rotor (R) will be misaligned.

The present invention has been made in view of the above problems,
The purpose thereof is a hermetic compression type in which the center of the shaft can be aligned easily and accurately and an accurate air gap can be secured between the stator and the rotor, even though the drive shaft has a double-support structure. To provide a machine.

(Means for Solving the Problems) In order to achieve the above object, in the present invention, a motor (2) having a stator (21) and a rotor (22) in a closed casing (1), and the motor (2). A compression element (3) driven by the drive shaft (4) of (1), and the drive shaft (4) is supported via a bearing (5) provided on the compression element (3) side. Type compressor, the motor (2)
A holding body (7) having an auxiliary bearing (8) for supporting the non-compression element side of the drive shaft (4) is provided on the non-compression element side of the above, and is provided on the outer peripheral portion of this holding body (7) The leg (71)
It is characterized in that it is fitted in a recessed portion (21a) provided in the stator (21).

Further, the leg portion (71) of the holding body (7) is fitted to the inner peripheral side of the stator (21), and the stator (21) and the rotor (22) are placed inside the holding body (7). An open chamber (72) for the fluid to be circulated in the air gap (23) between the chamber (7) and the holding body (7).
It is also possible to form a flow control hole (73) for separating oil from the fluid released into 2) and releasing gas into the casing (1).

(Operation) Since the drive shaft (4) is supported on both sides by the bearing (5) and the auxiliary bearing (8), the deflection of the drive shaft (4) can be reduced, and moreover, Holder (7)
The recessed part (71) of the stator (21) into the recessed part (21).
The shaft center of the auxiliary bearing (8) is fixed to the stator (21) by being fitted in a).
The axial center of the auxiliary bearing (8) and the axial center of the stator (21) are matched with each other with high precision, whereby the non-compression element side of the drive shaft (4) is The air gap (23) between the stator (21) and the rotor (22) is accurately formed when it is inserted in the auxiliary bearing (8).

Further, the leg portion (71) of the holding body (7) is fitted to the inner peripheral side of the stator (21), and the stator (21) and the rotor (22) are placed inside the holding body (7). An open chamber (72) for the fluid to be circulated in the air gap (23) between the chamber (7) and the holding body (7).
When the flow control hole (73) for separating the oil component from the fluid released into the inside of 2) and releasing the gas component into the casing (1) is formed, as described above, the accurate air gap (23) is formed. ) Can be formed, and in the open chamber (72), the oil component and the gas component in the fluid can be separated, and only the gas component can be supplied to the upper inner side of the casing (1).

(Embodiment) The hermetic compressor shown in FIG. 1 has a hermetic casing (1).
A motor (2) including a stator (21) and a rotor (22) is disposed on the upper inner side of the motor, and the motor (2) is provided.
A compression element (3) is arranged on the lower side of the.

The compression element (3) comprises a cylinder (31), front and rear heads (32) (33), and a roller (34) rotatably mounted in the cylinder (31), and the motor (2). Drive shaft (4) connected to the rotor (22) of
While being fitted in the roller (34), the heads (32) (33) are rotatably supported via bearings (5) (5) provided in the upper and lower cylindrical portions of the heads (32) (33). By the rotation of the roller (34) accompanying the motor (2),
From the air gap (23) formed between the stator (21) and the rotor (22) of the motor (2) by compressing the intake fluid in the cylinder (31) and opening it into the casing (1). The external discharge pipe (6) connected to the upper side of the casing (1) is used for discharging.

In the hermetic compressor described above, a cylindrical holding body (7) integrally formed with a leg portion (71) extending downward on the outer peripheral portion is formed, and a central portion of the holding body (7) is formed. Is provided with an auxiliary bearing (8) for supporting the upper end of the drive shaft (4), and the bearing (8) and the bearing (5) on the compression element (3) side.
And both sides of the drive shaft (4) are supported, and at the outer peripheral portion on the upper surface side of the stator (21), the leg portion (71) is provided.
To form a concave portion (21a) that can receive the
The holding body (7) is integrally supported on the upper side of the stator (21) by fitting and fixing the leg portion (71) to 1a).

In order to assemble such a compressor, the recessed portion (21a) is previously prepared.
, The leg portion (71) of the holding body (7) is integrally assembled,
A sub-assembly in which the rotor (22), the compression element (3) and the drive shaft (4) are integrated is provided in the auxiliary bearing (8) of the holding body (7) of the drive shaft (4). The non-compression element side is inserted, and the rotor (22) is inserted into the inner circumference of the stator (21) to combine them, and this combination is put into the casing (1) whose inner diameter is increased by heating. Since the drive shaft (4) is inserted and fixed by shrinking by cooling (shrink-fitting fixation), by doing so, the drive shaft (4) has a double-sided support structure, but with a simple assembling work, An accurate air gap (23) is formed between the stator (21) and the rotor (22).

Further, in the present invention, as shown in FIG. 2, the recess (21a) is provided on the inner peripheral side of the upper portion of the stator (21) on the side where the air gap (23) is formed, and the holder ( The leg portion (71) of 7) is formed to have a small diameter so that the leg portion (71) can be fitted into the recessed portion (21a), and the leg portion (71) is fitted and fixed to the recessed portion (21a). The holding body (7) is attached to the upper side of (21) so as to cover the air gap (23), and inside the holding body (7),
A plurality of flow control holes (73) may be provided in the holding body (7) while forming an open chamber (72) through which fluid from the air gap (23) is released.

The flow control hole (73) is, as shown in FIG.
A gas hole (73a) provided on the upper wall side of the holder (7),
It consists of an oil return hole (73b) provided on the side of the leg (71), and the gas component separated in the open chamber (72) is
The gas holes (73a) are opened upward in the casing (1), and the oil is returned from the oil return holes (73b) to the bottom oil sump (1a) of the casing (1). .

In the embodiment shown in FIG. 2, a separation plate (9) is integrally attached to the upper end side of the drive shaft (4) at a position facing the gas hole (73a), and the gas hole is formed in the separation plate (9). Only the gas component is supplied to the external discharge pipe (6) by colliding the gas component discharged from (73a) and further performing gas-liquid separation.

Further, the flow control hole (73) is formed only on the leg portion (71) side of the holding body (7), and the open chamber (72) is formed.
The fluid released to the interior may collide with the coil end of the stator (21), and the collision may separate the gas component and the oil component.

Further, the flow control hole (73) is formed only on the upper wall side of the holding body (7) to prevent the fluid released in the chamber (72) from colliding with the separation plate (9), and The oil and the oil may be separated.

(Effect of the Invention) As described above, in the hermetic compressor of the present invention, the non-compression element side of the motor (2) has the auxiliary bearing (8) for supporting the non-compression element side of the drive shaft (4). The holder (7) is provided, and the leg portion (71) provided on the outer peripheral portion of the holder (7) is provided with the recessed portion (21) provided in the stator (21) of the motor (2).
Since the drive shaft (4) is fitted to the drive shaft (4), the drive shaft (4) is supported by the auxiliary bearing (8) and the bearing (5) on the compression element (3) side so as to support the drive shaft (4). While preventing the bending, it is possible to accurately align the axes of the auxiliary bearing (8) and the stator (21), and to obtain an accurate air gap () between the stator (21) and the rotor (22). 23) can be formed.

Further, the leg portion (71) of the holding body (7) is fitted to the inner peripheral side of the stator (21), and is circulated inside the holding body (7) to the air gap (23). A fluid open chamber (72) is formed, and oil is separated from the fluid released into the chamber (72) in the holder (7), and gas is introduced into the casing (1). By forming the flow control hole (73) to be opened, not only the accurate air gap (23) can be formed, but also the oil component and the gas component in the fluid are separated in the opening chamber (72) and only the gas component is separated. It can be supplied to the upper inner side of the casing (1).

[Brief description of drawings]

FIG. 1 is a vertical sectional view of a hermetic compressor according to the present invention, and FIG.
FIG. 3 is a vertical sectional view showing another embodiment, and FIG. 3 is a sectional view showing a conventional example. (1) ...... Hermetically sealed casing (2) ...... Motor (21) ...... Stator (21a) ...... Recessed part (22) ...... Rotor (23) ...... Air gap (3) ...... Compression element (4) ... … Drive shaft (5) …… Bearing (7) …… Holder (71) …… Leg (72) …… Open chamber (73) …… Flow control hole (8) …… Auxiliary bearing

Claims (2)

[Scope of utility model registration request] 1. A stator (21) in a closed casing (1).
A motor (2) having a rotor (22) and a compression element (3) driven by a drive shaft (4) of the motor (2), and provided on the compression element side of the motor (2). In a hermetic compressor adapted to support the drive shaft (4) via a bearing (5), the non-compression element side of the drive shaft (4) is supported on the non-compression element side of the motor (2). A holding body (7) having an auxiliary bearing (8) is provided, and a leg portion (71) provided on the outer peripheral portion of the holding body (7) is provided in a recessed portion (21a) provided on the stator (21). A hermetic compressor characterized by being fitted together. 2. A leg (71) of a holder (7) is attached to a stator (2).
The air gap (23) between the stator (21) and the rotor (22) is fitted inside the holding body (7) by fitting on the inner peripheral side of 1).
An open chamber (72) for the fluid to be circulated in the chamber (72) is formed, and an oil component is separated from the fluid released in the chamber (72) in the holder (7), and a gas component is separated from the gas component in the casing (7). The hermetic compressor according to claim 1, wherein a flow control hole (73) to be opened is formed in the inside of 1).