JPH0670361B2 - Scroll type fluid machine - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a scroll type fluid machine, more specifically, a fixed scroll, an orbiting scroll and the fixed scroll.
An upper housing having an upper bearing for supporting the upper portion of the drive shaft of the revolution scroll, and a lower housing having a lower bearing for supporting the motor and the lower portion of the drive shaft are housed in a casing having a tubular body. The present invention relates to a scroll type fluid machine.

(Prior Art) Conventionally, a scroll type fluid machine of this type is described, for example, in Japanese Patent Application No. 59-82361 previously filed by the present applicant.
Further, as shown in FIG. 6, the orbiting scroll (3) is fixed to the fixed scroll (3) by an upper slide bearing (8) provided in the upper housing (4) and a lower slide bearing (9) provided in the lower housing (6). The drive shaft (7) that is revolved with respect to 2) is supported in a vertically supported manner.

However, when the motor (5) can be installed between the upper housing (4) and the lower housing (6) as described above,
It is necessary to assemble the upper and lower bearings (8) and (9) and the drive shaft (7) of the motor (5) so that the shaft centers are aligned with each other. In order to eliminate misalignment caused by the above, the lower part of the upper housing (4) is extended downward, and a spigot joint (4A) is provided between the tip of the extension part (4B) and the upper part of the lower housing (6). ) Is composed.

That is, the lower housing (6) is provided with the lower bearing (9) at the center thereof, and an annular rising wall (6A) is formed on the outer periphery of the lower housing (6) to receive the rising wall (6A) at the top surface. A step portion is provided, and the spigot joint (4A) is configured by fitting the tip end portion of the extension portion (4B) of the upper housing (4) into the receiving step portion.

And, the upper housing (4) and the lower housing (6) are connected via the spigot joint (4A),
The bolt (13A) inserted from the lower part of the lower housing (6) is fixed to the extension part (4B) by screwing, and at the time of fixing, the upper housing (4) and the lower housing (6) are fixed. The position is regulated by the connection by the spigot joint (4A), and the center positions of the upper and lower bearings (8) and (9) are aligned with each other.

The upper housing (4) is press-fitted and fixed to the body (10) of the casing (1), and the motor (5) of the drive shaft (7) is provided with the extension portion between the housings (4) and (6). It is press-fitted and fixed to the inner surface of (4B).

(Problems to be Solved by the Invention) As described above, the conventional bearing has the upper and lower bearings (8).
A spigot joint (4A) is formed between the upper and lower housings (4) and (6) to match the axes of (9), and the spigot joint (4A) is formed.
Since the extension part (4B) is extended to the upper housing (4) by the height of the motor (5), the weight is increased by providing the extension part (4B), and the material cost is increased. Since it is bulky, there is a problem of increasing cost.

An object of the present invention is to pay attention to the fact that a tubular body is formed in the casing, and by using this tubular body, it is unnecessary to use an extension portion or the like that has been conventionally provided, which leads to an increase in weight and cost. An object of the present invention is to provide a scroll type fluid mechanism capable of accurately aligning the shaft centers of the upper and lower bearings with a simple structure while being prevented.

(Means for Solving Problems) Therefore, in order to solve the above problems, the present invention fixes the fixed scroll (2), the orbiting scroll (3) and the fixed scroll (2), and the orbiting scroll (3 ) Has an upper housing (4) with an upper bearing (8) supporting the upper part of the drive shaft (7) and a lower bearing (9) supporting the motor (5) and the lower part of the drive shaft (7). In a scroll type fluid machine in which a lower housing (6) and a lower housing (6) are housed in a casing (1) having a cylindrical body (10), the upper housing (4) and the lower housing 6 are connected to the body (10) of the body (10). The press-fitting parts (40) (60) are formed in close contact with the inner surface, and the positions of the upper and lower bearings (8) (9) are set based on these press-fitting parts (40) (60).

(Operation) The upper and lower housings (4) and (6) are press-fitted into one tubular body (10) at the press-fitting portions (40) and (60), so that both housings (4) and (6) are provided. The positions of the upper and lower bearings (8) (9) are the same as those of the press-fitting parts (40) (6).
0), that is, based on one cylindrical body (10), these bearings (8) are set.
The axis of (9) was able to be accurately matched.

(Example) Hereinafter, a scroll type fluid machine according to the present invention will be described with reference to an example of the drawings.

FIG. 1 shows the entire structure of a scroll type fluid machine, which is composed of a cylindrical body (10) and lids (11) and (12) which are airtightly fitted to the upper and lower parts of the body (10). (1)
And an upper bearing (8) for rotatably supporting the upper part of the drive shaft (7) for driving the orbiting scroll (3) at the upper inner position of the casing (1) and a fixed scroll ( The upper housing (4) for fixedly supporting 2) is installed inside, and the stator (51) and rotor (5
And a lower housing (6) having a lower bearing (9) that rotatably supports the lower portion of the drive shaft (7) at the lower position. There is.

In addition, a counterweight (1
4) A swing link having a large diameter part (15) integrally attached thereto and a balance weight (16a) on the large diameter part (15) via a drive pin (15a) and a limit pin (15b). (16) is attached and the swing link (1
While supporting the boss portion (3a) of the revolution scroll (3) at a position biased with respect to the drive shaft (7) of 6), between the swing link (16) and the revolution scroll (3). The Oldham ring (17) for preventing the scroll (3) from rotating is interposed between the two.

Then, the rotational driving force of the drive shaft (7) is transmitted to the revolution scroll (3) through the large diameter portion (15), the swing link (16), and the Oldham ring (17),
The orbiting scroll (3) is revolved with respect to the fixed scroll (2).

Thus, in the scroll type fluid machine configured as described above, the press-fitting portions (40) (60) that are in close contact with the inner surface of the body (10) are formed in the upper housing (4) and the lower housing (6). Then, the positions of the upper and lower bearings (8) and (9) are set based on these press-fitting portions (40) and (60).

Specifically, as shown in FIGS. 2 and 3, the upper housing (4) has a bearing portion (8) for receiving the upper bearing (8).
A substantially cylindrical main body (41) having (0) in the center, and the main body (4)
1) a plurality of legs (42) standing upright from below to receive the upper part of the stator (51) and contacting the body (41) with the body (10). For the time being (43)
The press-fitting portion (40) is formed by (44), and the cylindrical outer diameter (D ₁ ) including these contact surfaces (43) (44) is press-fitted into the inner diameter of the body (10). The dimensions are used.

In addition, above the upper housing (4), the body (1
A collar (46) is formed so as to engage with the upper open end (100) of (0) so that the housing (4) can be accurately positioned when it is press-fitted into the body (10).

Incidentally, (45) is a screw hole of the bolt (13).

On the other hand, as shown in FIGS. 4 and 5, the lower housing (6) has a cylindrical main body (61) having a bearing portion (90) for receiving the lower bearing (9) in the center, and the main body (61). ) And a plurality of legs (62) that stand upright from the above) to support the lower part of the stator (51), and the main body (61) and the legs (62).
The press-fitting portion (60) is formed by the contact surfaces (63) (64) with the body (10) in the cylinder outer diameter (D ₂ ) including these contact surfaces (63) (64). ), As in the case of the upper housing (4) described above, with the body (10)
The press-fitting dimension is based on the inner diameter of.

Incidentally, (65) is a through hole for the bolt (13).

Then, the motor (5) is sandwiched between the leg body (42) of the upper housing (4) and the leg body (62) of the lower housing (6), and the upper housing (4),
The motor (5) and the lower housing (6) are temporarily fixed with bolts (13), and both housings (4)
The press-fitting portions (40) and (60) formed in (6) are press-fitted and fixed to the tubular body (10).

At this time, the two housings (4) and (6) are press-fitted into the body (10) through the press-fitting portions (40) (60), so that the two housings (4) and (6) are press-fitted into the body (10). The positions of the upper and lower bearings (8) and (9) to be formed are corrected based on the body (10) and set to accurate positions, and the axial center and the lower bearing of these upper bearings (8) are set. (9)
It is possible to accurately match the axis center of.

In the above embodiment, the motor (5) is fixed to the upper and lower housings (4) and (6) with four bolts (13).
The number of the bolts (13) is sufficient to prevent the movement of the stator (51) in the rotation direction of the motor (5), and only one bolt is required. When the motor (5) is fixed to the upper housing (4) or the lower housing (4) (6), one of the legs (42) (62) is used to fix the stator to this portion. Either the upper part or the lower part of (51) may be press-fitted and held. In this case, it goes without saying that the press-fitting margin of the leg body (42) or (62) to the stator (51) does not have to be the entire length of the stator (51) as long as it has a length necessary for individualization. Absent.

As described above, according to the present invention, the upper housing (4) and the lower housing (6) are formed with the press-fitting portions (40) (60) that are in close contact with the inner surface of the body (10). Since the positions of the upper and lower bearings (8) and (9) are set based on these press-fitting parts (40) (60), the body (10) of the casing (1) can be used for a simple structure. While being
The shaft centers of the upper and lower bearings (8) and (9) could be accurately matched, and the drive shaft (7) could be made to slide well.

In addition, the upper and lower housings can be completely dispensed with the extensions and the like formed to set the position of the spigot joint, so that the problem of weight increase can be eliminated and the cost of materials can be prevented from increasing. I was able to do it.

[Brief description of drawings]

FIG. 1 is a vertical sectional view showing an embodiment of a scroll type fluid machine according to the present invention, FIG. 2 is a bottom view of the upper housing, and FIG. 3 is a schematic perspective view from the bottom of the upper housing. FIG. 4 is a plan view of the lower housing, FIG. 5 is a schematic perspective view of the lower housing from a plane, and FIG. 6 is a drawing for explaining a conventional example. (1) …… Casing (2) …… Fixed scroll (3) …… Revolution scroll (4) …… Upper housing (5) …… Motor (6) …… Lower housing (7) …… Drive shaft (8) ...... Upper bearing (9) ...... Lower bearing (10) ...... Cylindrical body (40) (60) ...... Press-fitting part

Claims (1)

[Claims] 1. A fixed scroll (2), an orbiting scroll (3), and an upper bearing (8) for fixing the fixed scroll (2) and supporting an upper part of a drive shaft (7) of the orbiting scroll (3). An upper housing (4) having the same, a lower housing (6) having a lower bearing (9) for supporting the motor (5) and the lower part of the drive shaft (7), and a cylindrical body (10). In a scroll type fluid machine installed in a casing (1), press-fitting portions (40) (60) which are in close contact with the inner surface of the body (10) are formed in the upper housing (4) and the lower housing 6, and these press-fitting parts are provided. Department (40) (60)
A scroll type fluid machine characterized in that the positions of the upper and lower bearings (8) and (9) are set based on the above.