JPS62113881A - Scroll type fluid machine - Google Patents

Abstract

PURPOSE:To assemble a refrigerant gas suction pipe simply through connection with the casing by forming a suction chamber between the casing of a fluid machine to be employed in a compressor of refrigerating machine and the lower housing at the lower section of a motor arranged in the housing. CONSTITUTION:In a scroll type fluid machine where rotation of a drive shaft 7 through a motor 5 will cause rotation of a revolving scroll 3 and compress the refrigerant gas in a chamber defined between a fixed scroll 2, a wall member 9 forming a partition chamber 10 separated from the interior of the casing 1 is formed integrally with the lower housing 6 to be arranged at the lower section of the motor 5. The wall member 9 is opened radially outward and the endface of said opening is contacted hermetically against the inner face of the casing 1. Consequently, a refrigerant suction chamber or a partition chamber 10 is defined between the inner face of the casing 1 and the wall member 9, thereby a refrigerant suction pipe 11 can be connected to the wall section of the casing 1 facing said chamber 10.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a scroll-type fluid machine used as a compressor of a refrigeration system.

(Prior Art) In general, this type of scroll-type fluid machine is disclosed in, for example, U.S. Pat. No. 4,389,171, and as shown in FIG. A scroll (3) is supported via an upper housing (4), and a motor (5) and a lower housing (6) are supported at a position below the casing (1). A drive shaft (7) is rotatably supported by the lower housing (6) and the upper part of the drive shaft (7) is connected to the revolving scroll (3).
and the lower portions are respectively connected to the motor (5),
The rotational drive of the drive shaft (7) accompanying the motor (5) moves the revolving scroll (3) towards the fixed scroll (
These fixed scrolls (2) are driven to revolve around them (2).
) and the revolving scroll (3), compressible fluid such as refrigerant is compressed.

Further, an oil reservoir (a) is formed at the bottom of the casing (1), and the lower end of the oil supply passage (7a) formed in the drive shaft (7) faces the oil reservoir (a). Lubricating oil pumped up from the oil sump (a) through the oil supply passage (7a),
The bearing portions of the upper housing (4) and the drive shaft (7) and other oil supply portions are supplied with oil.

Generally, in a scroll type fluid machine, the refrigerant sucked into the casing (1) from the suction pipe (11) is introduced from the lower part of the casing (1), passes through the motor (5), and then passes through the scrolls ( 2) The motor (5) is cooled when the refrigerant passes through the motor (5) by guiding the refrigerant to the suction port (3).

However, as described above, the refrigerant sucked from the suction pipe (11) is transferred from the lower part of the casing (1) to the motor (5).
), the lubricating oil in the oil reservoir (a) comes into contact with the suction refrigerant at the lower part of the casing (1) and is lifted upward, causing the oil in the lubricating oil to The amount of increase will be large.

Therefore, in the scroll type fluid machine shown in FIG. 4, the suction pipe (11) is projected inward from the wall of the casing (1), and the tip of the suction pipe (11) is connected to the lower part. 1 unong (6), and the suction pipe (11
) is guided from the lower housing (6) to the lower part of the motor (5), and the refrigerant is drawn from the oil sump (a).
The suction refrigerant is prevented from coming into contact with the lubricating oil inside, thereby preventing the lubricating oil from leaking out.

(Problems to be Solved by the Invention) By the way, as mentioned above, the suction pipe (11) is projected inward from the wall of the casing (1), and the suction pipe (11) is
) to the lower/) housing (6), the casing (1) of the suction pipe (11)
It is necessary to have a sealing structure at two points: the point where it enters into the lower housing (6), and the point where it connects to the lower housing (6), which makes the structure complicated. Furthermore, when assembling, the suction pipe (11) is connected to the casing (1). ), it is necessary to connect it to the housing (6) in a state in which it protrudes into the inside of the housing (6), which poses problems such as poor assembly efficiency.

The present invention has been made in view of the above-mentioned problems, and an object of the present invention is to utilize the casing and the lower housing to form a suction chamber between them that is independent of the casing. allowing assembly by simply connecting the pipe to the casing;
The object of the present invention is to provide a scroll-type fluid machine which has a simple structure as a whole and is easy to assemble.

(Means for Solving the Problems) The scroll-type fluid machine of the present invention is constructed as shown in FIGS. and orbital scroll (3
) are supported via an upper housing (4), and a motor (5) and a lower housing (6) are disposed at a lower position of the casing (1).
) and (6) are provided with bearings (8) and (8) of the drive shaft (7) that drives the revolving scroll (3), respectively, and each of the bearings (
8) In a scroll type fluid machine in which the drive shaft (7) is supported on both sides by (8), a wall (9) is provided at a portion of the lower housing (6) facing the casing (1). The wall (9) forms a compartment (10) independent from the inside of the casing (1), and the wall (9) has an opening (
95), and the end face of the opening (95) is brought into sealing contact with the inner surface of the casing (1), and the inner surface of the casing (1) and the wall (9) form a refrigerant suction chamber. It is characterized by the fact that

(Function) Therefore, the casing (1) and the lower part/1 housing (6
), a suction chamber independent from the casing (1) is formed between the refrigerant suction pipe (1) on the wall of the casing (1) facing the suction chamber.
1), the refrigerant introduced from the suction pipe (11) passes through the suction chamber and enters the motor (1).
5), and the motor (5) is cooled. In other words, when assembling the scroll type fluid machine, unlike in the past, the motor (5) is guided to the lower part of the casing (1) facing the suction chamber. It is only necessary to connect the suction pipe (11) to the portion, and it is sufficient to provide a sealing structure only at the connection portion between the suction pipe (11) and the casing (1).

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

Figure 1 shows the overall structure of a scroll-type fluid machine, with a fixed scroll (
2) and the revolving scroll (3) to the upper housing (4).
A motor (5) and a lower housing (6) are disposed at a lower position of the casing (1), and a drive shaft extends vertically in each of the housings (4) and (8). (7), bearings (8) and (8) respectively.
), while the upper part of the drive shaft (7) is connected to the revolving scroll (3), and the lower part is connected to the motor (5), so that the motor (
Due to the rotational drive of the drive shaft (7) accompanying 5), the revolving scroll (3) is driven to revolve relative to the fixed scroll (2), and there is a gap between the fixed scroll (2) and the revolving scroll (3). When a compressible fluid such as a refrigerant is compressed.

Further, an oil supply passage (7a) extending in the axial direction is formed inside the drive shaft (7), and the lower part of the oil supply passage (7a) is an oil reservoir (a) provided at the bottom of the casing (1). The lubricating oil pumped up from the oil reservoir (a) through the oil supply passage (7a) is applied to each of the bearings (8) and the drive shaft (7).
), it is like lubricating the parts that come into contact with it.

However, in the scroll type fluid machine as described above,
A wall (9) forming a compartment (10) isolated from the inside of the casing (1) is integrally formed in the lower housing (6), and the wall (9) is opened radially outward. and the end face of the opening is brought into sealing contact with the inner surface of the casing (1), and the divided chamber (10) is formed into a refrigerant suction chamber between the inner surface of the casing (1) and the wall (9). Therefore, the refrigerant suction pipe (11) is connected to the wall of the casing (1) facing the suction chamber.

Specifically, as is clear from FIGS. 2 and 3, a portion of the lower housing (6) facing the inner surface of the casing (1) is provided with an upper wall (
91), a lower wall (92), and a vertical wall (93) extending downward from the upper wall (91).
) are integrally formed, and each wall (91) (92
) (93') and a holding part (93') that holds the lower bearing (8).
94) to form a compartment (10) independent from the inside of the casing (1), and the wall (9)
radially outwardly of said upper wall (91) and said lower wall (92).
an opening (95) is formed between the opening (95), and the end surface (95a) of the opening (95) is brought into sealing contact with the inner surface of the casing (1), so that the inner surface of the casing (1) and the wall (
9) to form a suction chamber, and the suction pipe (11) is connected to a portion of the casing (1) facing the suction chamber via a connecting fitting (12).

By doing so, the refrigerant is introduced from the suction pipe (11) into the suction chamber, that is, the compartment (10), and from the compartment (10), the vertical wall (93) of the wall (9) and the holding an opening (96) formed between the part (94) and the part (94);
is guided below the motor (5) through the motor (5).
The air gap (5a) between the stator (51) and the rotor (52) constituting the motor (5) is passed upwardly, and the motor (5) is cooled during this passage.
5) The refrigerant that has passed through the fixed scroll (2) passes through the through hole (4a) formed in the upper housing (4).
This leads to the suction boat with the orbiting scroll (3).

In the illustrated embodiment, a rising wall (97) rising upward is formed at the outer end in the radial direction of the lower wall (92) of the wall body (9), and this rising wall (97) A dirt storage chamber (98) is formed on the lower wall (92) between the holding part (94) and the vertical wall (93) of the wall body (9) and the holding part (94). A filter (13) is interposed in the opening (96) formed in between, and the filter (13) separates and removes dirt mixed in the refrigerant passing through the compartment (10), thereby removing the dirt and the like from the storage tank. Room (98)
It's like I'm accumulating it.

Note that (14) in the figure is a refrigerant discharge pipe, which is projected inward from the casing (1) and is connected to the fixed scroll (14).
2) is connected.

Further, (99) is an oil return hole formed in the lower housing (6).

(Effects of the Invention) As explained above, in the scroll type fluid machine of the present invention, the lower housing (6) is provided with a wall (9) forming a compartment (10) isolated from the inside of the casing (1). The wall (9) is provided with an opening (95) that opens the compartment (10) radially outward, and the end face of the opening (95) is connected to the casing (1).
Since the wall (9) and the inner surface of the casing (1) form a suction chamber by making sealing contact with the inner surface of the suction pipe (11), the suction pipe (11 ), the refrigerant introduced from the suction pipe (11) is guided to the lower part of the motor (5) through the suction chamber, thereby cooling the motor (5). In other words, in order to cool the motor (5), the suction pipe (
11), it is only necessary to connect the suction pipe (11) to the wall of the casing (1) facing the suction chamber, without requiring troublesome and complicated operations unlike in the past. Since it is necessary to seal only one connection portion between the suction pipe (11) and the casing (1), the structure is simple and easy to assemble.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view of a scroll-type fluid machine according to the present invention, FIG. 2 is a plan view of the lower housing, FIG. 3 is an enlarged sectional view taken from the direction of the line X-X in FIG. It is a drawing showing a conventional example. (1) Casing (2) Fixed scroll (3) Revolving scroll (4) Upper housing (5) Motor (6 )...Lower housing (7)...Drive shaft (8)...Bearing (9) e...Wall (95)...Opening (10) ... Compartment room aap%

Claims (1)

[Claims] An upper housing (4) having an upper bearing (8) for fixing the fixed scroll (2) and supporting the drive shaft (7) of the revolving scroll (3) is installed in the upper part of the casing (1), A lower housing (6) is provided with a motor (5) and a lower bearing (8) supporting the lower part of the drive shaft (7).
), wherein the lower housing (6) is provided with a wall (9) forming a compartment (10) isolated from the inside of the casing (1),
This wall (9) is provided with an opening (95) that opens the compartment (10) radially outward, and the end face of this opening (95) is sealed to the inner surface of the casing (1). A scroll type fluid machine characterized in that the wall (9) and the inner surface of the casing (1) are brought into contact to form a suction chamber.