JPH0512521B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a scroll type fluid machine that can be used as a compressor, an expander, a motor, a pump, etc.

An example of a conventional scroll type fluid machine is shown in FIG. 1 is a movable scroll, and a mirror plate 1b
It has a spiral body 1a. 2 is a fixed scroll having an end plate 2b and a spiral body 2a. The spiral body 1a of the movable scroll 1 and the spiral body 2a of the fixed scroll 2 are engaged with each other to limit the fluid pocket 3. Fixed scroll 2
is fixed to the frame 6, and the movable scroll 1 is
It is continuously connected to the crank portion 7a of the crankshaft 7 via a bearing 6b, and is also connected to the frame 6 via an anti-rotation mechanism 8 made of an Oldham joint. By rotationally driving the crankshaft 7 with the motor 9, the movable scroll 1 revolves at a crank radius _r0 while its rotation is controlled by the rotation prevention mechanism 8, sucking fluid into the fluid pocket 3 and compressing it. Then, the end plate 2b of the fixed scroll 2
It is discharged from a discharge hole 4 drilled in the. In this scroll-type fluid, while the movable scroll 1 maintains a predetermined relative torsional position with the fixed scroll 2, unless its origin always revolves around the origin 0 of the fixed scroll 2 with a crank radius r ₀ , the fixed scroll 1 spiral body 2a and movable scroll 1
If the spiral body 1a gets caught, or the gap between them becomes large, the fluid in the fluid pocket 3 will leak from this gap, impairing the performance of the scroll type fluid machine. However, in the conventional device described above, an Oldham joint is used as the rotation prevention mechanism 8, and this Oldham joint, as shown in FIG.
One key 8b of the Oldham ring 8a is slidably fitted into the key groove of the movable scroll 1, the other key 8c is slidably fitted into the key groove of the frame 6, and the fixed scroll 2 is fixed to the frame 6, so the relative torsional position of the movable scroll 1 and the fixed scroll 2 is determined via the frame 6. Therefore,
In order to properly set the relative torsional position between the movable scroll 1 and the fixed scroll 2, it is necessary to appropriately determine the relative torsional position of the frame 6 and the fixed scroll 2. For this reason, for example, positioning pins have been installed between the two, but this configuration increases costs and makes it difficult to accurately set the 1st and 2nd positions of both scrolls. There were drawbacks such as large variations in performance.

The present invention aims to provide a structure in which the relative torsional positions of a fixed scroll and a movable scroll can be appropriately set. In a scroll-type fluid machine in which a scroll and a movable scroll are meshed together and the movable scroll is caused to revolve while preventing its rotation through an autorotation prevention mechanism, the movable scroll of the fixed scroll end plate is used as the automatic prevention mechanism. a plurality of first keyways drilled in the opposing surface in the same direction; and a first keyway drilled in the movable scroll end plate at a position corresponding to the first keyway and perpendicular to the first keyway. a pair of first and second pin keys disposed between the fixed scroll end plate and the movable scroll end plate, respectively, and a plane including the pair of first pin keys is a second key groove; The first pin key is engaged with the first key groove, the second pin key is engaged with the second key groove, and the first and second pin keys are connected to the first and second pin keys. The scroll type fluid machine is characterized by being provided with a pinky block that is slidable in each keyway direction within the keyway.

Since the present invention has the above configuration, it is not necessary to determine the relative torsional position of the fixed scroll and the frame. The relative twisting position between the movable scroll and the fixed scroll depends only on the machining accuracy of the anti-rotation machine installed between them without intervening a frame. Therefore, assembly errors in relative torsional positions when assembling the fixed scroll to the frame are not accumulated, and therefore a scroll-type fluid machine with less variation in performance can be obtained easily and at low cost.

The present invention will be specifically explained below with reference to one embodiment shown in FIGS. 3 to 5. A plurality of keyways 301 (two in the figure) extending in the same direction are provided on the surface of the end plate 2b of the fixed scroll 2 facing the movable scroll 1. On the other hand, the end plate 1 of the movable scroll 1
A keyway 302 is provided on the surface facing the fixed scroll 2 of b so as to be substantially orthogonal to the keyway 301 of the fixed scroll 2. Pinky Block 500 is
One side of the disk 501 is provided with a pair of pink keys 503, and the other side is provided with the pair of pink keys 503.
A pair of pink keys 504 are provided in a direction orthogonal to the . The pinky 503 on one side of the pinky block 500 is inserted into the keyway 301 of the fixed scroll 2.
Then, the pink keys 504 on the other side are slidably engaged with the key grooves 302 of the movable scroll 1, respectively. The other configurations are the same as those shown in FIG.
Corresponding members are given the same reference numerals.

In addition, movable scroll 1 or fixed scroll 2
It is necessary to provide a recess in the mirror plate 1b or 2b to allow movement of the disc 501.

Key grooves 301 and 302 are provided in the end plates 2b and 1b of the fixed scroll 2 and the movable scroll 1, respectively, and a pink key 50 is provided in the key grooves 301 and 302.
When 3,504 is engaged, pinky block 5
The pinky 503 of 00 reciprocates in the longitudinal direction (arrow direction) in the keyway 301 of the fixed scroll 2, and the pinky 504 of the pinky block 500 reciprocates in the longitudinal direction in the keyway 302 of the movable scroll 1. Exercise. By combining these two reciprocating movements, the movable scroll 1 can perform a revolution movement while being prevented from rotating itself. In this way, the rotation of the movable scroll can be prevented with an extremely simple mechanism of the keyways 301, 302 and the pinky block 500, thereby reducing the cost of the fluid machine. In addition, the relative torsional positional relationship between both scrolls 1 and 2 is determined only by the machining accuracy of the keyways 301 and 302 and the pinky block, so the positioning of the fixed scroll and frame, which was necessary in the past, is no longer necessary. This eliminates the need for a previously required mechanism, or reduces the time required for assembly. Furthermore, in the past, the relative twisting position of both scrolls was determined by both the precision of the work of the anti-rotation mechanism and the assembly precision of the fixed scroll and frame, but in the present invention Since it depends only on the machining accuracy of the anti-rotation mechanism, it is possible to set the relative torsion position of both scrolls extremely stably, reducing variations in machine performance and ensuring stable performance. It becomes possible.

In addition, as shown in FIG. 6, the movable scroll 1
It is also possible to provide an oil groove 601 in the key groove 302 and supply lubricating oil to the key groove 302 to lubricate the space between the cross key 300 and the key grooves 301 and 302. The material and surface treatment of the pinkie may be determined as appropriate. The material may be a resin material in addition to a metal material such as a casting or Al material, and the surface treatment may be performed as appropriate, such as phosphate film treatment, various plating, Teflon coating, etc., as necessary.

Also, instead of the pinky block 500 in FIG. 5, as shown in FIG.
704 can be implanted in the ring 701.

Since a pinky block only requires a cylindrical key protruding from a disc or annular ring, the use of such a pinky block makes it possible to easily and reliably adjust the position between the fixed block and the movable block. This also makes it easier to make pinky blocks.

[Brief explanation of the drawing]

FIGS. 1 and 2 show an example of a conventional scroll compressor, with FIG. 1 being a longitudinal sectional view and FIG. 2 being an enlarged plan view of a rotation prevention mechanism. Figures 3 to 5
The figure shows one embodiment of the invention, and FIG. 3 is a partial longitudinal sectional view. FIG. 4A is a plan view of the keyway provided on the end plate of the movable scroll, FIG. 4B is a plan view of the keyway provided on the end plate of the fixed scroll, and FIG. 5 is a perspective view of the pinky block. FIG. 6 is a partial longitudinal sectional view of another embodiment of the present invention;
FIG. 7 is a perspective view of another pinky block. Movable scroll...1, Fixed scroll...
2. Anti-rotation mechanism...301,302,500,
Key groove...301, 302, pinky block...
...500, Pinky...503,504.

Claims (1)

[Claims] 1 A pair of fixed scrolls consisting of an end plate and a spiral body are meshed with a movable scroll, and
In a scroll-type fluid machine that causes a movable scroll to revolve while preventing its rotation through an automatic prevention mechanism, the rotation prevention mechanism includes:
a plurality of first key grooves in the same direction drilled in the movable scroll facing surface of the fixed scroll end plate; and a plurality of first key grooves in the movable scroll end plate at positions corresponding to the first key grooves and perpendicular to the first key grooves; and a second keyway drilled therein, arranged between the fixed scroll end plate and the movable scroll end plate, and having a pair of first and second pin keys on both side surfaces, respectively;
A plane including the pair of first pin keys is perpendicular to a plane including the second pin key, the first pin key is engaged in the first key groove, the second pin key is engaged in the second key groove, and A scroll type fluid machine characterized in that the first and second pin keys are provided with a pin key block that is slidable in the direction of each key groove within the first and second key grooves.