JPH03294685A - Scroll compressor - Google Patents

Abstract

PURPOSE:To reduce a pressure pulsation at the oil pouring piping side generated when the lap of a movable scroll blocks an oil pouring port by providing an oil damper in an oil feeding passage communicating to the oil pouring port. CONSTITUTION:An oil pouring port 5 is provided on a panel board 21 of a fixed scroll 2. And an oil damper 7 is provided in an oil feeding passage 6 connected to the oil pouring port 5. As a result, when a lap 32 blocks the oil pouring port 5 when a movable scroll 3 is revolved, a part of a cooling oil in the oil feeding passage 6 flows in the oil damper 7, and the pressure rise can be reduced. Consequently, a pressure pulsation at the oil feeding passage 6 side is reduced, and breakage of an oil pouring piping and the like connected to the oil feeding passage 6 is prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a scroll compressor used to compress helium gas or the like.

(Prior art) Conventionally, this type of compressor is disclosed in, for example, Japanese Patent Application Laid-Open No. 61-12639.
As described in Publication E3 and shown in Figure 4,
A fixed scroll (A) is provided with a wrap (b) erected on an end plate (a), and a movable scroll (B) is also provided with a wrap (C) erected on an end plate.
) (B) are arranged opposite each other, and each of the above-mentioned wraps (b) (c
), and the end plate (a) of the fixed scroll (A) forms its wrap (b).
) by forming a cooling oil inlet (D) opened to the compression chamber at an intermediate position in the winding direction, and injecting the cooling oil into the compression chamber from the inlet (D). The gas compressed in the compression chamber is cooled.

(Problem to be Solved by the Invention) However, in the above scroll compressor, when the movable scroll (B) is driven to revolve relative to the fixed scroll (A), the wrap (C) of the movable scroll (B) closes the injection port (D), and at this time, the injection port (D)
) to the compression chamber is interrupted, a phenomenon similar to water hammer occurs, and pressure pulsations occur on the oil injection piping side connected to the injection port, which may lead to breakage of this piping. Ta.

The present invention was made in view of the above-mentioned problems, and its purpose is to reduce pressure pulsations on the oil injection piping side that occur when the wrap of the movable scroll blocks the oil injection port. It is an object of the present invention to provide a scroll compressor that can reliably prevent breakage accidents of pipes and the like.

(Means for Solving the Problem) In order to achieve the above object, the present invention provides a mirror plate (21).
A fixed scroll (2) having wraps (22) (32) erected on (31) and a movable scroll (3) are provided, and an oil inlet (5) is provided in the end plate (21) of the fixed scroll (2). In the scroll compressor, the oil inlet (5)
This is characterized in that an oil damper (7) is provided in an oil supply passage (6) that communicates with the oil supply passage (6).

(Function) The movable scroll (3) relative to the fixed scroll (2)
), the cooling oil from the oil supply passage (6) flows from the inlet (5) to each of the laps (22) (3, 2).
The oil is injected into the working gas compressed by the compressor to cool the gas, but if the wrap (32) blocks the oil inlet (5) when the movable scroll (3) revolves. Although pressure fluctuations occur, in this case, a portion of the cooling oil in the oil supply passageway (6) flows into the oil damper (7) to reduce the pressure rise.
Pressure pulsations on the side (7) are attenuated, and breakage of oil injection piping etc. connected to the oil supply passage (7) is prevented.

(Example) The scroll compressor shown in Fig. 1 has a hermetic casing (
1), there is a fixed scroll (2) consisting of an end plate (21) with a wrap (22) standing upright, and an end plate (31).
) with a wrap (32) erected on the movable scroll (3
) are arranged vertically facing each other, and each scroll (2
) (3) 17) This movable scroll (
3) with a drive shaft (41) interlocked with the motor (
4), and a drive shaft (4) accompanying the drive of the motor (4).
1), the movable scroll (3) is driven to revolve around the fixed scroll (2), and the suction pipe (11) is rotated.
Gas such as helium introduced from each wrap (
22) High-pressure gas is compressed in two systems of compression chambers formed between (32) and sent from the discharge hole (12) provided at the center of the fixed scroll (2) to the upper turning part of the casing (1). The liquid is discharged to the outside through a connected discharge pipe (13).

Further, an oil separator (14) for recovering oil mixed in the discharged gas is connected to the discharge pipe (13), and the gas that has passed through the separator (14) is transferred to an expander unit (not shown). )
The oil separator (14)
Oil cooler (16) through oil injection pipe (15) at the bottom of
At the same time, each of the scrolls (2) (3
) with two oil inlets (5) (5) opening between them,
Each of these injection ports (5) is connected to the oil injection pipe (15) via an oil supply passage (6) formed in the end plate (21), and the oil injection pipe (15) is connected to the front oil distribution cooler. The cooling oil cooled in (16) is injected into the suction side working gas compressed between the scrolls (2) and (3) through the oil supply passage (6) and each oil inlet (5). By doing so, the gas is cooled.

In the above scroll compressor, the oil supply passage (6) formed in the end plate (31) of the fixed scroll (3) is provided with the wrap (22) of the movable scroll (2).
) closes each of the oil inlets (5), an oil damper (7) is provided which releases the cooling oil in the oil supply passage (6) and damps pressure pulsations occurring on the oil supply passage (6) side. It was established.

Specifically, as shown in FIGS. 2 and 3, near one winding end (22a) of the wrap (22) on the end plate (21) of the fixed scroll (2), The other winding end portion (22b) of the wrap (22)
) near the scrolls (2, 3) are provided with the oil inlets (5) (5), which are opened between the scrolls (2, 3), and the oil inlets (5) are connected to the end plate ( Each oil inlet (5) in this end plate (21) is opened at the upper side of the end plate (21).
An oil damper (7) (7) consisting of a bowl-shaped member with a hat-shaped cross section is attached to the upper side of the opening of the
8).

With the above configuration, the fixed scroll (2
) When the movable scroll (3) revolves around the orbit, the oil pressure increases when its wrap (32) closes each of the oil inlets (5), but the oil damper (7) is filled with working gas. Because of this intervention, the cooling oil in the oil supply passage (6), which was supplied to the inlet of each part, escapes into each oil damper (7) while compressing the working gas, causing the pressure to rise. is absorbed, and as a result, the oil supply passage (
7) side is attenuated, and the pressure pulsations are not transmitted to the oil injection pipe (15) connected to the oil supply passage (7), and the oil injection pipe (15) etc. is prevented from vibrating or breaking. is prevented.

In addition, in the embodiments shown in the same figures, the oil supply passage (6) is
A first passageway (61) opened in the outer peripheral wall of the mirror plate (21).
), and two second and third passages (E32) (8) branching from this first passage (61) and leading to each oil inlet (5).
3) is provided inside the end plate (21), and the first passage (61) is connected to the oil injection pipe (15), so that cooling oil cooled by the oil cooler (16) is provided. of,
The oil injection pipe (15) and the first to third passages (61 to 63
), each of the oil inlets (5) is supplied with oil through the first and second.8 passages (61) to (63
) is constituted by external piping and the oil inlet (5) (5)
It may be communicated with.

In addition, in each figure, the second and third passages (62
) (63) is opened with a drill from the outside of the end plate (21), and the outside of each of the passages (62) (f33) is closed with a plug (64), but the configuration of these passages is as follows. It is not limited.

(Effects of the Invention) As explained above, the scroll compressor of the present invention has an oil inlet (
An oil damper (
7), the wrap (3) of the movable scroll (3)
2) can attenuate the pressure pulsations on the oil injection piping side that occur when the oil injection port (5) is blocked, making it possible to reliably prevent breakage accidents of the injection piping and the like.

[Brief explanation of drawings]

Fig. 1 is a partially cutaway front view showing the overall structure of the scroll compressor according to the present invention, Fig. 2 is a sectional view of the fixed scroll, Fig. 3 is a bottom view thereof, and Fig. 4 is a drawing showing a conventional example. be. (2) ・ ・ ・ ・ ・ (3) ・ ・ ・ ・ ・ (21, 31) ・ (22, 32) ・ (5) @ ・ ・ ・ ・ (6) ・ ・ age (7) ・ ・ ・ ・ Fist・・Fixed scroll・・Movable scroll・・End plate・・Wrap・・Oil filler port・−Oil supply passage・・Oil damper 9− (G) Theft

Claims (1)

[Claims] 1) Fixed scroll (2) and movable scroll (3) with wraps (22) (32) erected on end plates (21) (31)
In the scroll compressor, an oil inlet (5) is provided in the end plate (21) of the fixed scroll (2), and an oil damper ( 7) A scroll compressor characterized by being provided with.