KR20080019509A - Refrigerant suction guiding apparatus and scroll compressor applying the same - Google Patents

Abstract

A refrigerant suction guide apparatus and a scroll compressor having the same are provided to enhance compression efficiency with reduced influx of liquid refrigerant to a compression part, and to facilitate installation of the refrigerant suction guide apparatus by integrating a connection part and a baffle. A refrigerant suction guide apparatus comprises a connection part(72), and a baffle(73). One end of the connection part is connected to a suction pipe(71) which guides refrigerant into a hermetic casing(50). The baffle, provided on the other end of the connection part, is inclined to allow the refrigerant passing the connection part to circulate along the inside of the hermetic casing. The baffle is integrated with the connection part, having a cross-sectional area tapering towards an outlet.

Description

Refrigerant suction guide device and scroll compressor with same {REFRIGERANT SUCTION GUIDING APPARATUS AND SCROLL COMPRESSOR APPLYING THE SAME}

1 is a cross-sectional view of a scroll compressor having a conventional refrigerant suction guide device;

FIG. 2 is a detail view of portion “A” of FIG. 1;

3 is a perspective view showing a state where a conventional refrigerant suction guide device is installed in a sealed case;

Figure 4 is a perspective view showing a state where a conventional refrigerant suction guide device is installed on the main frame,

5 is a cross-sectional view of a scroll compressor having a refrigerant suction guide device according to an embodiment of the present invention;

FIG. 6 is a detailed view of part “B” of FIG. 5;

7 is a perspective view showing a refrigerant suction guide device according to FIG.

8 is a side view showing the flow direction of the refrigerant passing through the refrigerant suction guide device according to FIG. 5;

9 is a view showing the flow direction of the refrigerant seen from the top of the sealed case according to FIG.

** Description of the symbols for the main parts of the drawings **

50: sealed case 52: main frame

54: subframe 60: compression unit

61: fixed scroll 63: turning scroll

71: suction pipe 72: connection portion

73: baffle 73a: first guide

73b: second guide 74: suction chamber

75: discharge pipe

The present invention relates to a refrigerant suction guide device and a scroll compressor having the same, and more particularly, a refrigerant suction guide device for improving the effect of cooling the motor and reducing the amount of liquid refrigerant flowing into the compression unit. Relates to a scroll compressor.

1 is a cross-sectional view of a scroll compressor having a conventional refrigerant suction guide device.

In general, the scroll compressor is positioned in a state in which a compression unit 10 for compressing and discharging refrigerant gas is supported by the main frame 20, and is located below the compression unit 10. The motor unit 30 for driving the compression unit 10 is located in the portion, and the sub-frame 25 is positioned below the motor unit 30.

The motor unit 30 is configured to rotate the inner rotor 33 when a current is applied to the stator 31 to generate the flow electricity, the drive shaft 35 in the center of the rotor 33 By pressing, the drive shaft 35 is rotated to operate the compression unit 10.

The compression section 10 is engaged with the fixed scroll 11 having an involute wrap and the swinging scroll 15 having an involute wrap having a phase difference of 180 degrees with the involute curve so as to face each other. (C) is formed.

Therefore, while the pivoting scroll 15 pivots with the driving force of the drive shaft 35 with respect to the fixed scroll 11, a compression action for reducing the volume of the compression chamber C is continuously performed.

That is, the turning scroll 15 is only rotating in rotation without rotating, and gradually reduces the crescent compression space by mutual movement with the fixed scroll 11 facing the turning scroll 15. Is compressed and eventually the refrigerant is discharged through the discharge port 19.

FIG. 2 is a detailed view of portion “A” of FIG. 1, illustrating a conventional refrigerant suction guide device.

In the longitudinal coolant suction guide device, a suction pipe 40 is installed on one side of the sealed case 1, and a refrigerant flow direction of the suction pipe 40 is formed inside the sealed case 1. The suction baffle 43 is provided vertically in the direction perpendicular to the direction.

Here, the suction baffle 43 serves to distribute the refrigerant gas introduced into the closed case 1 through the suction pipe 40 to the upper side and the lower side.

The refrigerant flowing into the suction pipe 40 and flowing upward through the suction baffles 43 flows directly into the suction chamber 45, and the refrigerant flowing downward moves the motor unit 30. After cooling, the water is introduced into the suction chamber 45.

Refrigerant suction guide device having such a function has a form that is installed in the main frame 20 and the sealed case (1).

3 is a perspective view showing a state where a conventional refrigerant suction guide device is installed in the hermetic case 1, and FIG. 4 is a perspective view showing a state where the conventional refrigerant suction guide device is shown in the main frame 20. As shown in FIG.

However, the scroll compressor having the conventional refrigerant suction guide device as described above has an inlet baffle 43 having a planar shape perpendicular to the refrigerant flow direction to allow the refrigerant to flow upward and downward, thereby not only reducing the cooling effect of the motor part but also the upper side. There is a problem in that the flow is distributed in the liquid refrigerant contains a lot of compression efficiency is lowered.

In addition, the form in which the refrigerant suction guide device is installed in the main frame 20 has a problem that the processability of the main frame 20 should be considered when setting the suction port 41.

The present invention has been made to solve the problems of the prior art as described above, the present invention provides a refrigerant suction guide device and a scroll compressor having the same that can increase the cooling effect of the motor portion and reduce the amount of liquid refrigerant flowing into the compression portion The purpose is to provide.

It is another object of the present invention to provide a refrigerant suction guide device and a scroll compressor having the same that can be installed freely without restriction of the installation position by integrally connecting the connection portion and the baffle.

The present invention is connected to one end connected to the suction pipe for guiding the refrigerant into the sealed case in order to achieve the object as described above; And a baffle provided at the other end of the connecting part so that the refrigerant passing through the connecting part is inclined along the inner surface of the sealed case. It provides a refrigerant suction guide device comprising.

By the configuration as described above, the sucked refrigerant is rotated along the inner wall of the hermetic case and has a long retention time in the motor part, which is the low pressure part of the hermetic case until it is sucked into the compression part. The amount of liquid refrigerant that is reduced is reduced.

Here, the baffle is preferably formed integrally with the connecting portion. Thus, the refrigerant suction guide device can be installed freely without restriction according to the position where the refrigerant suction guide device is to be installed.

It is also effective that the baffle is formed such that its cross-sectional area decreases toward the outlet. By collecting the refrigerant at the outlet of the baffle and discharging it, it acts like a nozzle to increase the cohesive force of the refrigerant, thereby increasing the time for maintaining the tangential component in the tangential direction, thereby effectively rotating motion. To do this.

On the other hand, the baffle may be installed in the hermetic case or may be installed in the main frame installed on the inner side of the hermetic case. As a result, the installation position can be appropriately determined according to the design conditions of the scroll compressor.

In addition, the object is a main frame which is installed on the inner upper portion of the sealed case formed with the suction pipe and the discharge pipe; A sub frame installed at an inner lower portion of the sealed case; An upper portion of the main frame having a turning scroll and a fixed scroll to compress and discharge the refrigerant gas; A motor unit installed between the main frame and the sub frame to drive the compression unit; And a baffle provided at a connection part connected to one end of the suction pipe and at another end of the connection part, and having a baffle inclined so that the refrigerant passing through the connection part rotates along the inner surface of the sealed case. It is achieved by a scroll compressor that includes.

Here, the refrigerant suction guide device is installed in the sealed case or the main frame, the baffle is formed integrally with the connecting portion.

The objects and features of this invention will become more apparent from the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the configuration and operation according to an embodiment of the present invention.

However, in describing the present invention, a detailed description of known functions or configurations will be omitted to clarify the gist of the present invention.

5 is a cross-sectional view of the scroll compressor having a refrigerant suction guide device according to an embodiment of the present invention, Figure 6 is a detailed view of the "B" portion of Figure 5, Figure 7 shows the refrigerant suction guide device according to FIG. 8 is a perspective view showing a flow direction of the refrigerant passing through the refrigerant suction guide device according to FIG. 5 from the side, and FIG. 9 is a view showing the flow direction of the refrigerant seen from the top of the sealed case according to FIG. 8.

5 and 6, in the scroll compressor according to the exemplary embodiment of the present invention, a main frame 52 is installed at an inner upper portion of the hermetic case 50, and a sub frame 54 is installed at a lower portion thereof.

A fixed scroll 61 and a revolving scroll 63 are provided above the main frame 54 to form a compression unit 60 for compressing and discharging refrigerant, and the main frame 52 and the sub frame 54. The motor part 65 for driving the compression part 60 is comprised in between.

In addition, a suction pipe 71 is installed at one side of the sealed case 50, which is a lower side of the main frame 52, to allow the refrigerant to flow therein, and the compressed refrigerant is discharged above the main frame 52. The discharge pipe 75 is provided.

In particular, a flow path of the refrigerant introduced through the suction pipe 71 is formed in the sealed case 50, and the refrigerant is distributed to the upper compression part 60 and the lower motor part 65. Refrigerant suction having a connection portion 72 provided to allow the recirculation, and a baffle 73 for turning oil and liquid refrigerant mixed in the refrigerant passing through the connection portion 72 along the inner wall surface of the hermetic case 50. Guide device 70 is installed.

That is, as shown in FIG. 7, the refrigerant suction guide device 70 flows in both directions with a connection portion 72 provided at one end of the suction pipe 71 and the refrigerant introduced through the connection portion 72. It is configured to include a baffle 73 formed on both sides to make.

The connection portion 72 is formed in a cylindrical shape so as to communicate with the suction pipe 71 installed in the hermetic case 50.

The baffle 73 has a first guide portion 73a formed to be inclined to both sides at a predetermined angle, and a second guide portion 73b formed to be bent at a predetermined height along the longitudinal direction of the first guide portion 73a. Is made of.

The first guide portion 73a is formed to gradually decrease in cross-sectional area from the portion connected to the connection portion 72 along the flow path direction F of the refrigerant.

Here, the cross-sectional shape of the baffle 73 viewed from the outlet side of the baffle 73 is preferably formed in a "c" shape, but is not limited thereto, and may be formed in a curved surface such as a semi-circle or semi-ellipse.

The first guide portion 73a formed to gradually decrease in cross-sectional area and the second guide portion 73b bent along the length direction of the first guide portion 73a have a function similar to that of the nozzle to greatly increase the cohesive force of the refrigerant. This allows the refrigerant to flow while maintaining the flow path (F).

Here, the baffle 73 and the connection portion 72 are integrally formed. Here, the connecting portion 72 and the baffle 73 may be manufactured as one component from the beginning, and the connecting portion 72 and the baffle 73 may be manufactured as separate components, respectively, and then one may be manufactured by welding or the like. It may be formed. This is to improve the convenience of installation of the refrigerant suction guide device 70 by allowing the refrigerant suction guide device 70 to be installed without restriction according to the position where the refrigerant suction guide device 70 is to be installed.

The refrigerant suction guide device 70 may be installed in the sealed case 50 or may be installed in the main frame 52.

When the refrigerant suction guide device 70 is installed in the hermetic case 50, the second guide portion 73b of the baffle 73 and the inner wall of the hermetic case 50 leak out in both directions. The coolant flow path F is formed, and thus the coolant flows while turning along the inner wall of the hermetic case 50.

In addition, the refrigerant suction guide device 70 may be installed on the main frame 52. In this case, the second guide portion 73b of the baffle 73 and the inner wall of the hermetic case 50 contact each other. While forming the flow path (F) of the refrigerant flowing out in both directions.

On the other hand, the present invention is the main frame 52 is installed on the inner upper portion of the sealed case 50, the suction pipe 71 and the discharge pipe 75 is formed; A sub frame 54 installed at an inner lower portion of the hermetic case 50; A compression unit 60 provided above the main frame 52 with a turning scroll 63 and a fixed scroll 61 to compress and discharge the refrigerant gas; A motor unit 65 installed between the main frame 52 and the sub frame 54 to drive the compression unit 60; And a connection portion 72 connected to one end of the suction pipe 71 and the other end of the connection portion 72 so that the refrigerant passing through the connection portion 72 is inclined along the inner surface of the sealed case 50. A refrigerant suction guide device 70 having a baffle 73; It provides a scroll compressor comprising.

The refrigerant suction guide device 70 is installed in the sealed case 50 or the main frame 52. In addition, the baffle 73 is integrally formed with the connecting portion 72.

Referring to the operation of the refrigerant suction device of the scroll compressor according to an embodiment of the present invention configured as described above are as follows.

As the motor unit 65 operates, the turning scroll 63 compresses the refrigerant by mutual movement with the fixed scroll 61 while rotating without rotating, and discharges the refrigerant toward the discharge pipe 75.

As such, as the two fixed scrolls 61 and the swinging scrolls 63 compress and discharge the refrigerant, the refrigerant flows into the sealed case 50 through the suction pipe 71. The refrigerant is distributed to the upper compression unit 60 and the lower motor unit 65 according to the guide of the connection unit 72 and the baffle 73, and the oil and liquid refrigerant contained in the refrigerant are compressed in the compression unit 60. ) To prevent suction.

Here, since the first guide portion 73a of the baffle 73 is formed to be inclined at a predetermined angle to both sides, the refrigerant passing through the first guide portion 73a has a tangential movement component and is sealed. It flows along the inner surface of the case 50.

As shown in FIGS. 8 and 9, the refrigerant sucked through the first guide part 73a toward the low pressure part such as the motor part 65 positioned below the sealed case 50 is sealed in the sealed case. A pivoting motion is performed along the inner wall of the 50 and has a long stagnation time in the low pressure part including the motor part 65 before being sucked into the compression part 60, and then flows into the compression part 60 to be compressed. do.

Although the preferred embodiments of the present invention have been described above by way of example, the scope of the present invention is not limited to these specific embodiments, and may be appropriately changed within the scope described in the claims.

As described above, in the present invention, the first guide portion of the baffle of the refrigerant suction guide device is inclined at an angle to both sides so that the sucked refrigerant rotates along the inner wall of the sealed case and has a long retention time in the motor unit. Since it is introduced into the portion, the time for cooling the motor portion is long, and the amount of the liquid refrigerant contained in the refrigerant can be reduced into the compression portion.

In addition, the present invention, by providing a refrigerant suction guide device is formed integrally with the connecting portion, it can be installed freely without restriction of the position to install the refrigerant suction guide device.

Claims (7)

A connection part of which one end is connected to a suction pipe for guiding the refrigerant into the sealed case; And A baffle provided at the other end of the connection part to be inclined so that the refrigerant passing through the connection part pivots along the inner surface of the sealed case; Refrigerant suction guide device comprising. The method of claim 1, The baffle is a refrigerant suction guide device, characterized in that formed integrally with the connecting portion. The method according to claim 1 or 2, The baffle, the refrigerant suction guide device characterized in that the cross-sectional area is formed toward the outlet toward the smaller. The method according to claim 1 or 2, Refrigerant suction guide device, characterized in that the cross section of the baffle is a polygonal cross section or curved surface. A main frame installed in the upper part of the sealed case in which the suction pipe and the discharge pipe are formed; A sub frame installed at an inner lower portion of the sealed case; An upper portion of the main frame having a turning scroll and a fixed scroll to compress and discharge the refrigerant gas; A motor unit installed between the main frame and the sub frame to drive the compression unit; And A refrigerant suction guide device having a connection part connected to one end of the suction pipe and a baffle provided at the other end of the connection part such that the refrigerant passing through the connection part is inclined along the inner surface of the sealed case; Including scroll compressor. The method of claim 5, The refrigerant suction guide device is a scroll compressor, characterized in that installed in the closed case or the main frame. The method of claim 5, And the baffle is integrally formed with the connecting portion.

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