JPS63111295A - Self-rotation preventive device in scroll type fluid machine - Google Patents

Abstract

PURPOSE:To prevent seizure and/or a welding trouble caused between a key and a guide groove, by forming a hardened film in a portion where keys, extending in two directions crossing at right angles in the diametric direction from a ring-shaped main unit of a self-rotation preventive device, engage with the guide groove of a movable scroll. CONSTITUTION:A self-axis revolution preventive device, which comprises a ring-shaped main unit 9 and the first and second keys 10, 11 extending in two directions crossing at right angles in the diametric direction from the main unit 9, forms the whole structure from an aluminum alloy of light weight. And a portion,where the first key 10 slides engaging with the first guide groove 12 of a movable scroll 4, forms a hardened film by an anodizing means. By this constitution, the self-rotation preventive device, which is formed in light weight small decreasing a surface pressure given between the first key 10 and the guide groove 12 further forming the hardened film in a sliding surface of the first key 10, provides no possibility of generating wearing, seizure, welding trouble, etc.

Description

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

(Prior Art) As a conventional scroll-type fluid machine of this type, the one shown in FIG. 4 has already been proposed.

However, the scroll type fluid machine has a casing (1
) A fixed scroll (
3) and a movable scroll (4) are vertically opposed to each other, and a drive shaft (5) whose one end is connected to a motor (M) is rotatably supported by the frame (2). (
An anti-rotation device (0) is interposed between the movable scroll (4) and the movable scroll (4) to prevent the movable scroll (4) from rotating and to drive it to revolve.

The rotation prevention device (0) includes the movable scroll (4)
A ring-shaped main body (9) having a fitting hole (9a) that fits into the boss part (4b) of the ring-shaped main body (9), and a pair of first and a first guide groove (12) comprising second keys (10) and (11), the first key (10) being formed in the movable scroll (4);
and the second keys (11) are slidably engaged with second guide grooves (13) formed in the frame (2), and as the drive shaft (5) rotates, each of the keys ( 10)
(11) is slidably guided along each of the guide grooves (12) and (13), thereby causing the movable scroll (4) to revolve around the fixed scroll (3).

Further, the movable scroll (4) is usually made of a soft material such as an aluminum alloy, whereas the ring-shaped main body (9) and the first and second keys (10) constituting the rotation prevention device (0) (11) is formed by sheet metal processing means using a hard material such as iron.

(Problems to be Solved by the Invention) In the scroll-type fluid machine as described above, each component of the anti-rotation device (0) is made of a hard material such as iron, which increases the overall weight. The inertial force increases, and the blood pressure applied to the first key (10) of the rotation prevention device (0) also increases, resulting in the following problem.

That is, recently, in order to perform inverter operation, the number of rotations of the motor (M) is changed by frequency conversion to drive the movable scroll (4) in revolution. When the movable scroll (4) is driven at high speed, the rotation prevention device (
The first key (10) of the movable scroll (4)
), a large surface pressure is applied by the first guide groove (12).

The blood pressure applied to the first key (10) is determined by a torque component (F
) and the rotation prevention device when this movable scroll (4) is driven to revolve! ! (0), and the torque component (F) is the force that the movable scroll (4) receives due to the gas pressure (Ft), and the When the radius of rotation for the fixed scroll (3) is (d/2), F=1/4XFtXd/2.

Further, the inertial component (Fi) is the movable scroll (4).
) is the angular velocity of (ω) and the mass is (m), then Fi=X(d/2)Xω'/2/9.8.

Therefore, when the movable scroll (4) is driven to revolve, the torque component (F) is applied to the side surface of the first key (10).
The blood pressure is given by the inertial component (Fi), and when the frequency of the motor (M) is changed during inverter operation,
For example, when the orbiting frequency of the movable scroll (4) is increased to about three times the commercial frequency, that is, 150Hz or f80Hz, the inertia component (Fi) is increased to angular velocity (ω
) is proportional to the square of (
10), the increase in blood pressure may cause abrasion or seizing accidents, or large vibrations between the first key (10) and the first guide groove (12) of the movable scroll (4). There was a problem.

The present invention was made in view of the above-mentioned problems, and its purpose is to reduce the blood pressure applied to the first key formed on the ring-shaped main body, thereby preventing seizure accidents and occurrence of large vibrations. An object of the present invention is to provide a rotation prevention device for a scroll type fluid machine that can prevent rotation.

(Means for solving the problems) The present invention provides a movable scroll (4) made of aluminum.
A rotation prevention device for a scroll-type fluid machine that revolves around a fixed scroll (3), and has an elongated fitting hole (9a) that fits into a boss portion (4b) of the movable scroll (4). a ring-shaped body (9); and a pair of grooves that protrude radially outward from the long axis side of the ring-shaped body (9) and slidably engage with the guide groove (12) of the movable scroll (4). 1 key (10) and the ring-shaped main body (9).
) that protrudes radially outward from the short axis side of the fixed scroll (3) and slidably engages with the guide groove (13) of the bridge (2) supporting the fixed scroll (3). The ring-shaped main body (9) and each key (10) (11) are formed of aluminum, and at least a portion of the first key (10) that engages with the guide groove (12) has an anodized surface. It is characterized by forming a cured film through treatment.

(Function) Therefore, each component of the rotation prevention device, that is, the ring-shaped main body (9) and the first and second keys (10) and (11) provided on the main body (9) are made of aluminum. By forming the entire m2 of the anti-rotation device to ri, the inertia force thereof is reduced, the surface pressure applied to the first key (10) is reduced, and the first key (10) is
10) and the guide groove (1) of the movable scroll (4)
2), there will be no seizure accidents or vibrations, and even though each component of the anti-rotation device is made of the same aluminum as the movable scroll (4), at least A hardened film is formed on the first key (10) by anodizing treatment, and its wear resistance is improved. ), there will be no burning or melting accidents due to the same material.

(Example)' The anti-rotation device for a scroll-type fluid machine according to the present invention will be described below with reference to an example shown in the drawings.

The scroll-type fluid machine shown in Fig. 3 has a fixed scroll (3) supported on a bridge (2) fixed inside a hermetic casing (1), and a movable scroll (3) made of aluminum alloy on the frame (2). 4) is supported vertically and internally with respect to the fixed scroll (3), while the bridge (
2) - The shaft rotatably supports a drive shaft (5) coupled to a motor (M) via a ball bearing (BR).

Further, between the movable scroll (4) and the drive shaft (5), a drive pin (
A counterweight (7) with a protruding pin (6) is interposed therebetween, and the drive pin (7) is mounted on the upper side of the counterweight (7).
A swing link (8) connected to the integral cane is disposed in step 6), and a swing link (8) is integrally formed in the center of the swing link (8) to protrude from the lower surface side of the end plate (4a) of the movable scroll (4). The boss part (4b) is connected to the radial bearing (
RB), while supporting the swing link (8
) and the movable scroll (4), there is interposed an anti-rotation device (0) that prevents the movable scroll (4) from rotating and drives it to revolve.

However, the rotation prevention bag r11. (O) was constructed as follows.

That is, as shown in detail in FIGS. 1 and 2, the rotation prevention device (0) has an elongated fitting hole (9a) that fits into the boss portion (4b) of the movable scroll (4). a pair of first keys (1) protruding radially outward from the long axis side of the ring-shaped body (9);
0) (10), and a pair of second keys protruding radially outward from the short axis side of the ring-shaped main body (9) in a direction perpendicular to the first keys (10) (10). (11)(
11), each of the first keys (10) (10) is provided in a pair of first guide grooves (12) (12) formed in the movable scroll (4), and each of the second keys (11) (1
1) formed in the bridge (2); a second guide groove (13);
(13), so that when the drive shaft (5) rotates as the motor (M) is driven, the first and second keys (10) and (11) By slidingly guiding the movable scroll (4) along each guide 1 (12) (13), the movable scroll (4) is guided by the fixed scroll (3).
) as if it were driven to revolve.

Then, the ring-shaped main body (9) constituting the anti-rotation device (0), each of the first keys (10) (10) and each second key (11) (11) are made of a high-silicon material. Formed from silicon aluminum alloy,
A cured film is formed by anodizing treatment means on at least the portions of the first keys (10) (10) that engage the first guide grooves (12) (12).

In forming the cured film on the first key (10), in reality, the entire anti-rotation v2 position (0) is anodized in an electrolytic bath to form a cured film on the whole, This anodizing treatment means includes, for example, the sulfuric acid method using a sulfuric acid bath, choux pickling using an oxalic acid bath, M@H
@C (Martin Co,) Methods Hard A
The lumi 1ite method or the recently developed lubricated alumite method is adopted.

As described above, the rotation prevention device f! (0), the ring-shaped main body (9), and each of the first and second keys (
10) By forming (11) from an aluminum alloy, the entire Tfi port of the anti-rotation device (0) is made lightweight, and the inertia component (Fi) shown in the above formula becomes small. The surface pressure applied to the side surface of each of the first keys (10) becomes small, and wear occurs between each of the first keys (10) and each of the first guide grooves (12) of the movable scroll (4). This eliminates the possibility of burn-out accidents, vibrations, etc.

Further, each component of the rotation prevention v2 position (0) is formed of the same aluminum alloy as the movable scroll (4), and at least each of the first keys (10)
As described above, a hardened film is formed on the engaging portion with the first guide groove (12) by anodizing treatment to improve its wear resistance.
Seizing or fusion accidents due to the same material do not occur between the guide groove (12) and the first guide groove (12).

In the embodiment shown in FIG. 1, a support (14) formed of a separate member from the frame (2) is fixed to the upper position of the swing link (8) in the frame (2), and this support (14) are respectively formed with the second guide grooves (12) in which the second keys (11) are slidably engaged.

(Effects of the Invention) As explained above, in the anti-rotation device of the present invention, the rod main body (9) has an elongated fitting hole (9a) that fits into the boss portion (4b) of the movable scroll (4). and a pair of first keys (10) that protrude radially outward from the long axis side of the ring-shaped main body (9) and slidably engage with the guide P groove (12) of the movable scroll (4). and the ring-shaped body (
a pair of second keys (11) that protrude radially outward from the short axis side of the fixed scroll (3) and slidably engage with the guide groove (13) of the frame (2) supporting the fixed scroll (3); comprising the ring-shaped main body (9) and each of the first and second keys (10);
(11) is made of aluminum, and at least the portion of the first key (10) that engages with the guide groove (12) is coated with a hardened film by anodizing surface treatment. The weight can be reduced and the inertia force thereof can be reduced, so that each of the first keys (
10), it is possible to reduce the surface pressure applied to the first key (10) and each guide groove (12) of the movable scroll (4), thereby preventing seizure accidents, vibrations, etc. can be reliably prevented from occurring. Moreover, although each component of the rotation prevention device is made of the same aluminum as the movable scroll (4), each of the first
A hardened film is formed on the key (10) by anodizing treatment to improve its wear resistance, so each of the first keys (
10) and each guide groove (12) of the movable scroll (4).
), it has now been possible to reliably prevent seizures and fusion accidents caused by similar materials.

[Brief explanation of the drawing]

Fig. 1 is a plan view showing the main parts of the anti-rotation device according to the present invention, Fig. 2 is a vertical sectional view thereof, Fig. 3 is a sectional view showing a part of the scroll type fluid machine, and Fig. 4 is a conventional example. FIG. (2)...Frame (3)...Fixed scroll (4)...Fist...Movable scroll (4b)...1 post part (9)...Ring-shaped body (9a )...Fitting hole (10)...First key (11)...Second key (12)...Guide groove (13)---Guy P11A

Claims (1)

[Claims] (1) An anti-rotation device for a scroll-type fluid machine in which a movable scroll (4) made of aluminum is driven to revolve around a fixed scroll (3), and is fitted into a boss portion (4b) of the movable scroll (4). A ring-shaped body (9) having an elongated fitting hole (9a), and a guide groove (12) for the movable scroll (4) that protrudes radially outward from the long axis side of the ring-shaped body (9). a pair of first keys (10) slidably engaged with the ring-shaped main body (9);
) that protrudes radially outward from the short axis side of the fixed scroll (3) and slidably engages with a guide groove (13) of a frame (2) that supports the fixed scroll (3). The ring-shaped main body (9) and each key (10) (11) are formed of aluminum, and at least a portion of the first key (10) that engages with the guide groove (12) has an anodized surface. An anti-rotation device for a scroll-type fluid machine, characterized by forming a cured film through treatment.