JPH0633779B2 - Scroll type fluid machine - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a scroll type fluid machine used for a compressor of a refrigerating apparatus and the like.

(Prior Art) Conventionally, a scroll-type fluid machine of this kind as shown in FIG. 3 has been proposed.

In the scroll fluid machine, the fixed scroll (3) is supported by the frame (2) fixed inside the casing (1), and the frame (2) faces the fixed scroll (3). The movable scroll (4) is mounted between the end plate (4a) and the seat (a) integrally extending from the frame (2) toward the center inward direction through a thrust bearing (5). The movable scroll (4) while slidably supporting the drive shaft (6), one end of which is coupled to the motor (M) on the frame (2).
And a drive shaft (6), a counter weight (8) having a drive pin (7) at a position eccentric to the drive shaft (6), and the counter weight (8) above the counter weight (8). A rotational eccentric part (89) composed of a swing link (9) connected by a drive pin (7) is arranged, and is a central part of the swing link (9) constituting the rotational eccentric part (89). While supporting the boss portion (4b) of the movable scroll (4) via a radial bearing (10) at a position eccentric to the axis of the drive shaft (6), the upper part of the swing link (9) On the side, between the movable scroll (4) and the frame (2), key grooves (11) (12) formed in the frame (2) and the movable scroll (4), respectively.
The Oldham ring (13) having a pair of keys (13a) and (13b) engaged with the drive shaft (6) is interposed.
The rotation of the movable scroll (4) is revolved through the counterweight (8) and the swing link (9) that constitute the rotational eccentric part (89), and the Oldham ring (13). .

(Problems to be Solved by the Invention) In the scroll type fluid machine described above, a seat (a) extending toward the center inward is integrally formed on the frame (2), and the seat (a) is mounted on the seat (a). In addition, since the end plate (4a) of the movable scroll (4) is slidably supported through the thrust bearing (5), there are the following problems.

That is, recently, in order to perform an inverter operation or the like, it is required to increase the speed of the scroll type fluid machine. However, in order to increase the speed of the scroll type fluid machine, the movable scroll (4) is moved at high speed. Since it is necessary, the radial bearing (10) for bearing-supporting the boss portion (4b) of the movable scroll (4) has a large size, and accordingly, the counterweight (8) constituting the rotational eccentric portion (89). Also, the swing link (9) needs to be large.

However, when the counterweight (8), the swing link (9) and the like are enlarged, the swing link (9) and the like can be incorporated into the frame (2).
The inner diameter of the center hole of the seat (a) provided in the frame (2) is formed large, and a large space is secured inside the center hole of the seat (a) to allow the swing link (9) and the like to be inserted. However, in this case, as the center hole of the seat (a) becomes larger, the inner diameter of the thrust bearing (5) interposed in the seat (a) also becomes larger, and Therefore, it is necessary to form the end plate (4a) of the movable scroll (4) supported by the thrust bearing (5) large.

In the case where the end plate (4a) is formed large as described above, the weight of the movable scroll (4) becomes large, and accordingly, the inertial force at the time of rotational driving becomes large, and the Oldham ring (13) becomes large. Since the surface pressure acting on the sliding contact portions of the keys (13a) and (13b) also becomes large, the wear loss of each sliding portion when the movable scroll (4) is driven becomes very large, which results in It is impossible to increase the speed of the scroll type fluid machine as it is.

On the other hand, as shown in FIG. 4, in order to secure the assembling property of the rotary eccentric part (89) to the frame (2) without increasing the size of the orbiting scroll (4), the thrust bearing (5) is provided as described above. A portion which is placed overhanging above the swing link (9) constituting the rotary eccentric portion (89) in the outer dimension, and overhangs above the swing link (9) as indicated by an imaginary line in the figure. It is conceivable that the frame (2) is divided into upper and lower parts with the lower side of the frame as a boundary. In such a case, the fixed scroll (3) is divided into two upper parts (2U) of the frame (2). Is supported by the lower member (2D) that supports the drive shaft (6) via the shaft, and the dimensional accuracy of the shaft center of the fixed scroll (3) and the shaft center of the drive shaft (6) Both scrolls that deteriorate in quality and require precise dimensional control (3) (4) sliding characteristics between were than fundamental problems that would be inhibited.

The present invention has been made in view of the above problems, and its purpose is to eliminate the necessity of enlarging the boundary plate of the movable scroll by adding a simple device to the frame, thereby causing a large wear. A scroll type that does not cause loss or increase in weight and can support high speeds, but does not have a bad influence such as misalignment of the axis of the drive shaft and the fixed scroll. It is to provide a fluid machine.

(Means for Solving Problems) In the present invention, as shown in FIG. 1, a fixed scroll (3) is supported on a frame (2) and a thrust bearing (5) is provided on the frame (2). The movable scroll (4) so as to be able to revolve, and the movable scroll (4) is eccentric to the axis of the drive shaft (6) between the movable scroll (4) and the drive shaft (6). Rotation eccentric part (8) which receives the boss part (4b) of 4) via a radial bearing (10).
9) and keys (13a) (13) that engage with the keyways (11) (12) of the frame (2) and the movable scroll (4).
In a scroll type fluid machine, which has an Oldham ring (13) having b), and is driven by the drive (6) to revolve the movable scroll (4), the scroll type fluid machine has a center hole (14a). A flat plate-like support (14) provided with the thrust bearing (5) and the key groove (11) on the upper surface near the center hole (14a),
While being formed independently of the frame (2), the frame (2) has a receiving surface (2c) for the fixed scroll (3).
And a support surface (2d) of the support (14) at a position axially displaced from the reception surface (2c), and the fixed scroll (3) is attached to the reception surface (2c). And, the support body (14) is attached to the support surface (2d), and the central hole (14a) of the support body (14) is made smaller in diameter than the outer dimension of the rotational eccentric portion (89). It is a feature.

(Operation) Then, the support (14) is formed in a flat plate shape and formed separately from the frame (2), and the movable scroll (4) and the Oldham ring (1) are formed through the support (14).
By supporting 3), for example, swing link (9)
Eccentric part (89) such as a counterweight (8)
Even when the size is increased to accommodate high speeds, the rotational eccentric parts (8) such as the counter weight (8) and the swing link (9) are removed with the support body (14) removed.
9) can be easily incorporated in the frame (2), and by supporting the end plate (4a) of the movable scroll (4) through the support (14), the rotating scroll (4) There is no need to make
Therefore, it is possible to cope with the speedup without increasing the inertial force and causing a large wear loss.

Moreover, the fixed scroll (3) is attached to the frame (2).
Attached to the receiving surface (2c) of the support body (14),
Since the fixed scroll (3) is attached to the support surface (2d) of the frame (2) provided at a position different from the receiving surface (2c), the fixed scroll (3) is directly supported by the frame (2), The axis does not shift.

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

In the scroll type fluid machine shown in FIG. 1, a fixed scroll (3) is supported by a frame (2) fixed inside a hermetic casing (1), and the fixed scroll (3) of the frame (2) is connected to the fixed scroll (3). A movable scroll (4) is supported in a facing portion via a thrust bearing (5) so as to be able to revolve, and
A drive shaft (6) having one end coupled to a motor (M) is rotatably supported on the frame (2) via a ball bearing (BR).

Further, between the movable scroll (4) and the drive shaft (6), a counter weight (8) provided with a drive pin (7) projecting at a position eccentric to the drive shaft (6), and this counter weight (8) On the upper side of the weight (8), a rotary eccentric part (89) composed of a swing link (9) integrally connected by the drive pin (7) is arranged, and the rotary eccentric part (8) is arranged.
9), which is a central portion of the swing link (9) and is eccentric to the axis of the drive shaft (6),
While supporting a boss portion (4b) integrally formed on the lower surface side of the end plate (4a) of the movable scroll (4) via a radial bearing (10), on the upper side of the swing link (9), Between the movable scroll (4) and the frame (2), a set of two keyways (11) provided in the frame (2) and the movable scroll (4), respectively.
A pair of keys (13a) (13) that engage with (12)
The Oldham ring (13) having b) is interposed, and the counterweight (8) and the swing link (9), which constitute the rotational eccentric portion (89) with the rotation of the drive shaft (6), and The movable scroll (4) is revolved around the Oldham ring (13).

However, in the scroll type fluid machine as above,
A key groove (11) having a central hole (14a), arranging the thrust bearing (5) near the central hole (14a), and receiving one key (13a) of the Oldham ring (13) is provided. A support body (14) is formed independently of the frame (2), the support body (14) is attached to the frame (2) via a plurality of fixing bolts (B), and The central hole (14a) of the support (14) has a smaller diameter than the outer dimensions of the swing link (9).

Specifically, on the upper side of the frame (2), an opening (2a) that allows insertion of the counterweight (8) and the watering link (9) that form the rotational eccentric part (89).
A ring-shaped step portion (2b) having the above is integrally formed, and the counterweight (8), the swing link (9), and the like are assembled from the opening portion (2a) to the inside of the upper portion of the frame (2). At the same time, with respect to the receiving surface (2c) that receives the lower surface of the fixed scroll (3) at the upper end of the frame (2),
The supporting surface (2d) is formed on the upper end surface of the step portion (2b) located below, and the supporting surface (2d) is formed separately from the frame (2) independently of the supporting surface (2d). Body (1
4) is assembled by a plurality of fixing bolts (B), and the movable scroll (4) and the Oldham ring (13) are supported through the support (14).

The support (14) is, as is clear from FIG.
The overall appearance is formed into a substantially ring-shaped flat plate, and the diameter thereof is smaller than the outer dimensions of the counter weight (8) and the swing link (9) that form the rotational eccentric portion (89) at the center thereof. The central hole (14a) is opened, and two key grooves (11) (11) extending from the central hole (14a) side of the support (14) toward the outer peripheral edge are formed to face each other. A pair of keys (13) provided in each key groove (11) so as to face the Oldham ring (13).
While inserting a), the fixing bolt (B) is formed in the outer peripheral portion of the support (14) to form a plurality of insertion holes (14b).

Then, the support (14) formed as described above is fixedly supported on the step (2b) of the frame (2), and the thrust bearing (5) is provided on the upper surface side of the support (14), The movable scroll (4) through the thrust bearing (5)
The end plate (4a) and the Oldham ring (13) are slidably supported.

The Oldham ring (13) is usually made of an aluminum alloy. In this case, the support body (14) is also made of an aluminum alloy like the Oldham ring (13). When the Oldham ring (13) and the support (14) have the same coefficient of thermal expansion, the key (13a) formed on the Oldham ring (13) and the support (14) are formed. It is possible to prevent a seizure accident with the key groove (11).

(Effects of the Invention) As described above, the scroll type fluid machine according to the present invention has the central hole (14a), and the central hole (14
A plate-like support (1) provided with the thrust bearing (5) and the key groove (11) on the upper surface near a).
4) is formed independently of the frame (2), while the frame (2) has a receiving surface (2) for the fixed scroll (3).
c) and a supporting surface (2d) of the supporting body (14) at a position axially displaced from the receiving surface (2c), and a fixed scroll (3) is formed on the receiving surface (2c). And the support body (14) is attached to the support surface (2d), and the central hole (14a) of the support body (14) has a smaller diameter than the outer dimension of the rotational eccentric portion (89). Therefore, for example, the rotation eccentric portion (8
Even when the swing link (9) and the like which compose 9) are increased in size so as to be compatible with high speeds, there is an adverse effect such that the drive shaft (6) and the fixed scroll (3) are misaligned. The swing link (9) and the like can be easily assembled to the frame (2) without removing the support (14) without exerting any influence on the frame. By supporting the orbiting scroll (4), it is not necessary to make the orbiting scroll (4) particularly large as in the conventional case, so that the inertial force is increased, a large wear loss is caused, and the weight is increased. It became possible to cope with the speedup without inviting.

[Brief description of drawings]

FIG. 1 is a sectional view of an essential part showing a scroll type fluid machine according to the present invention, FIG. 2 is a plan view of a support, FIG. 3 and FIG.
The figure is a cross-sectional view of an essential part for explaining the conventional technique and its problems. (2) -Frame (2c) -Receiving surface (2d) -Supporting surface (3) -Fixed scroll (4) -Movable scroll (4b) -Boss (5) -Thrust bearing (6) ) Drive shaft (8) Counter weight (9) Swing link (89) Rotating eccentric part (10) Radial bearing (11) Key groove (12) Key groove (13) ) …… Oldham ring (13a) …… key (13b) …… key (14) …… support (14a) …… center hole

Claims (1)

[Claims] 1. A fixed scroll (3) is supported on a frame (2), and a movable scroll (4) is rotatably supported on the frame (2) via thrust bearings (5). 4) and the drive shaft (6), at a position eccentric to the axis of the drive shaft (6), the boss portion (4b) of the movable scroll (4) via a radial bearing (10). A rotation eccentric part (89) for receiving and an Oldham ring (13) having keys (13a, 13b) engaging with the keyways (11), (12) of the frame (2) and the movable scroll (4). In a scroll type fluid machine which is formed so as to revolve the movable scroll (4) by driving the drive shaft (6), the scroll type fluid machine has a central hole (14a) and an upper surface near the central hole (14a). The thrust bearing (5) is installed in A flat plate-shaped support (14) provided with the key groove (11) is formed independently of the frame (2), and the frame (2) has a receiving surface for the fixed scroll (3). (2c) and the support surface (2d) of the support (14) at a position axially displaced from the receiving surface (2c).
And the fixed scroll (3) is attached to the receiving surface (2c), the support (14) is attached to the support surface (2d), and the center hole of the support (14) is formed. A scroll type fluid machine characterized in that (14a) has a smaller diameter than the outer dimensions of the rotary eccentric part (89).