JPS62253901A - Scroll type hydraulic machinery - Google Patents

Abstract

PURPOSE:To prevent the upper surface of a base plate of a revolution scroll from interference with the mounting surface of a fixed scroll on a frame by protruding the downward end face of a scroll body of the fixed scroll below said mounting surface. CONSTITUTION:Fixed and revolution scroll 2, 3 provided integrally with scroll bodies 21, 31 engaging each other in the upper inner position of a casing 1 are supported in the casing 1 through a frame 4. The downward end face 21a of the scroll body 21 of fixed scroll 2 is protruded beneath the mounting surface 22 of fixed scroll 2. That is, a height difference h between the mounting surface 22 of fixed scroll 2 on the frame 4 and the downward end face 21a of scroll body 21 of the fixed scroll 2 is provided to that the scroll body 21 is elevated by the difference h. Thus, when the height of a base plate 3a of the revolution scroll 3 is adjusted, the upper surface of base plate 3a is adapted to be prevented from interference with the mounting surface 22 on the frame 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a scroll-type fluid machine used in a compressor for a refrigeration system or the like.

Conventionally, this type of scroll fluid machine has spiral bodies (21) (3) protruding from the base plates (2a) (3a), respectively, on the inner upper part of the casing (1), as shown in Fig. 3, for example.
Fixed scroll (2) with 1) and revolving scroll (3)
) is supported via the rack $1 (4), and the rack I!
(4) supports a drive shaft (8) interlockingly connected to a motor, and this drive shaft (6) is connected to the revolving scroll (3) via a transmission mechanism (D) such as a counterweight or a swing ring. The rotation of the drive shaft (6) accompanying the drive of the motor causes the revolving scroll (3) to revolve around the fixed scroll (2), so that each of the scrolls (2) and (3) Spiral body (21) (3
1) The intake gas is compressed between the two.

In this way, each of the scrolls (2) and (3) is connected to the frame (4).
), the first support surface (41) is placed on the outer periphery of the upper end of the frame (4), and the second support surface (42
) to fixedly support the lower end mounting surface (22) of the fixed scroll (2) on the first support surface (41), and fixedly support the lower end mounting surface (22) of the fixed scroll (2) on the second support surface (42). The bottom surface (32) of is supported so as to be rotatable.

(Problems to be Solved by the Invention) By the way, in the scroll type fluid machine as described above, the transmission mechanism CD such as the swing ring or counterweight is
) and other parts are common to each scroll (2).
) (3), for example, in order to reduce the compression capacity by lowering the height of the spiral body (21) (31), the substrate (3) of the revolving scroll (3)
When increasing the height of a), the orbiting scroll (
3), the upper surface of the substrate (3a) is
) may interfere with the mounting surface (22) on the frame (4).
As shown in , the mounting surface of the fixed scroll (2) (
22) and the upper surface of the substrate (3a) of the revolving scroll (3), cutting was performed so that they would not interfere with each other.

However, as mentioned above, the mounting surface of the fixed scroll (2) (
Not only is cutting the mounting surface (22) very troublesome and increases the manufacturing cost, but also cutting the mounting surface (22) reduces the width of the mounting surface (22), making it difficult to cut the mounting surface (22). ) to the frame (4) becomes weak.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to make the spiral body provided on the fixed scroll protrude downward from the mounting surface of the fixed scroll to the frame, so that the fixed scroll By securing a predetermined space in advance between the mounting surface and the supporting surface of the scroll that supports the revolving scroll, the compression capacity of each of the scrolls can be changed by making the six parts such as the transmission mechanism common. In such a case, even though the height of the substrate of the revolving scroll is adjusted, interference of the revolving scroll with the fixed scroll is prevented without cutting the mounting surface of the fixed scroll to the frame. It is an object of the present invention to provide a scroll-type fluid machine that can secure sufficient mounting strength of the fixed scroll to the frame by not cutting the mounting surface of the fixed scroll.

(Means for Solving the Problems) The scroll-type fluid machine of the present invention is constructed as shown in FIG. 1, and includes a fixed scroll (2) and a revolving scroll (3). ) is supported and fixed on the first support surface (41) of the frame (4), and the bottom surface (3
2) is rotatably supported on the second support surface (23) of the frame (4), the lower fw of the spiral body (21) in the fixed scroll (2);1;=i /L'>1-5f-fr! t9=Yi m'l node→do: ];=;/^to 11+-~-''L1 is characterized by protruding.

(Function) However, the spiral body (2) in the fixed scroll (2)
The downward end surface (21a) of the fixed scroll (2)
) when the fixed scroll (2) is fixedly supported on the frame (4) by protruding downward from the mounting surface (22) to the frame (4), the fixed scroll (2) mounting surface (22), and the revolving scroll (3
) between the fixed scroll (2) and the second support surface (42) of the frame (4) supporting the frame (4), even though the height of the substrate of the revolving scroll (3) is adjusted. This ensures a sufficient space for accommodating the revolving scroll (3).

(Example) A scroll-type fluid machine according to the present invention will be described below with reference to an example shown in the drawings.

The fixed scroll (2
) and the revolving scroll (3), the casing (1)
A motor (5) is supported via a frame (4) fixed to the casing (1), and a motor (5) is disposed at a lower position of the casing (1). The drive shaft (6) is rotatably supported through the drive shaft (6).
is connected to the motor (5), while the upper end of the drive shaft (6) is connected to the revolving scroll (3), which revolves around the fixed scroll (2) as the drive shaft (5) rotates. A transmission mechanism (D) for driving is interposed.

The fixed scroll (2) is integrally formed with a spiral body (21) projecting downward on the inner lower surface side surrounded by the outer peripheral wall, and the spiral body (21) is integrally formed on the lower surface side of the outer peripheral wall of the fixed scroll (2). A mounting surface (22) for the frame (4) is formed, and the revolving scroll (3) has a spiral body protruding upward in opposition to the spiral body (21) of the fixed scroll (2). (31) are integrally formed, and the suction gas is compressed between the respective spiral bodies (21) and (31) by the revolution drive of the revolving scroll (3) with respect to the fixed scroll (2).

Further, a first support surface (41) that supports and fixes the mounting surface (22) of the fixed scroll (2) is formed on the outer peripheral portion of the upper end surface of the frame (4). A second support surface (42) lower than the first support surface (41) is formed at the inner peripheral portion of the upper end.
2), the bottom surface (32) of the revolving scroll (3) is supported such that it can be driven to revolve.

However, in the above scroll type fluid machine,
As shown in FIG. 1, the downward end surface (21a) of the spiral body (21) of the fixed scroll (2) is made to protrude downward from the mounting surface (22) of the fixed scroll (2).

Specifically, as is clear from FIG. 1, the attachment surface (22) of the fixed scroll (2) to the frame (4) and the bottom of the spiral body (21) provided on the fixed scroll (2) A height difference (h) is provided between the opposite end surface (21a) and the spiral body (21) is formed to be at a higher level by this step (h), and each of the scrolls (2) and (3) is mounted. At times, a predetermined space is secured between the mounting surface (22) of the fixed scroll (2) and the second support surface (42) that supports the revolving scroll (3) of the frame (4). I decided to do so.

The said space is a case where the transmission mechanism (D) and other parts are common, but the compression capacity of each of the scrolls (2) and (3) is changed, and the above-mentioned revolving scroll (3)
When adjusting the height of the substrate (3a) of the revolving scroll (3), the upper surface of the substrate (3a) of the revolving scroll (3) is aligned with the mounting surface (2) of the fixed scroll (2) to the frame (4).
2) so as not to interfere with

1 and 2 small ffi++L
l2mh Ring l嬶 /nN Su-ν ^ When changing and adjusting the compression capacity of each of the scrolls (2) and (3) using common parts, the revolving scroll (3)
), the upper surface of the substrate (3a) may interfere with the mounting surface (22) of the fixed scroll (2) to the frame (4). In other words, there is no need to cut the mounting surface (22) as shown by the imaginary line (d) in the figure.
, since the height of the substrate (3a) of the revolving scroll (3) can be adjusted, and there is no need to cut the mounting surface (22) of the fixed scroll (2) to the frame (4), The frame (4) of the revolving scroll (3)
This ensures that the mounting strength is guaranteed. Moreover, the downward end surface (21a) of the spiral body (21) is made to protrude downward with respect to the mounting surface (22) of the fixed scroll (2),
By forming a step (h) between this end surface (21a) and the mounting surface (22), each of the surfaces (21a) (2
The machining Fa degree of 2) can be independently managed, and the machining accuracy of the spiral body (21) and the mounting surface (22) of the fixed scroll (2) can be improved.

In the embodiment shown in FIG. 2, the transmission mechanism (D) interposed between the revolving scroll (3) and the drive shaft (6) is
A counterweight (8) integrally supported on the upper end of the drive shaft (6), a swing link (9) having a balance weight provided above the counterweight (8), and the counterweight (8). 8) A drive bin (10a) and a limit bin (10b) provided above are provided, and the swing link (9) is connected to the counterweight (8) via these bins (10a) (10b).
The boss portion of the revolving scroll (3) is supported by a bearing at a position displaced with respect to the drive shaft (6) of the swing link (9). An Oldham ring (11) is interposed between the frame (4), the Oldham ring (11) prevents the rotation of the revolving scroll (3), and the revolving scroll (3) is connected to the fixed scroll (2). ) is driven to revolve.

(Effects of the Invention) As explained above, in the scroll type fluid machine of the present invention, the downward end surface (21a) of the spiral body (21) in the fixed scroll (2) is connected to the frame (4) of the fixed scroll (2). ) so that it projects downward from the mounting surface (22) to , the orbiting scroll (3
Despite adjusting the height of the substrate (3a) in ), the upper surface of the substrate (3a) may interfere with the mounting surface (22) of the fixed scroll (2) to the frame (4). In other words, the mounting surface (22)
The height of the substrate (3a) of the revolving scroll (3) can be easily adjusted without cutting as in the conventional method.
Since there is no need to cut or process the mounting surface (22) of the scroll (3) to the frame (4), the mounting strength of the revolving scroll (3) to the frame (4) can be guaranteed.

[Brief explanation of drawings]

Fig. 1 is a sectional view showing the main parts of a scroll type fluid machine according to the present invention, Fig. 2 is a partially cutaway front view showing the overall structure of the scroll type fluid machine, and Fig. 3 is a drawing showing a conventional example. be. (2)... fixed scroll (21)... spiral body (21a), writing, downward end surface (22)... shaft mounting surface (3)... revolving scroll (32)・・φ・Bottom surface (4)・・・Frame (41)・−IIφ1st support surface Fig. 2

Claims (1)

[Claims] A fixed scroll (2) and a revolving scroll (3) are provided, and the mounting surface (
22) is supported and fixed on the first support surface (41) of the frame (4), and the bottom surface (32) of the revolving scroll (3)
) is rotatably supported on the second support surface (23) of the frame (4), the downward end surface (
21a) protrudes from the mounting surface (22).