KR100608865B1 - Device for protecting gas leakage of scroll compressor - Google Patents

Abstract

The present invention relates to a gas leakage blocking device of a scroll compressor, the present invention is to form a main cylinder in the shape of a cylinder and the casing for sealing and coupling the upper and lower ends of the main body with the upper cap and the lower cap, respectively, the main body of the casing A frame fixedly installed therein, a swinging scroll mounted on the frame and eccentrically coupled to the electric mechanism, and a pair of compression chambers that move continuously together during the swinging movement of the swinging scroll by engaging the swinging scroll. And a fixed scroll formed in the outer circumferential surface of the fixed scroll so as to be negatively formed at a predetermined depth, and interposed between the main body and the upper cap of the casing to divide the inside of the casing into a suction space and a discharge space. And a plurality of sealing protrusions inserted and welded to the casing.

In addition, a casing which forms a main body cylinder in a cylindrical shape and seals the upper and lower ends of the main body cylinder with an upper cap and a lower cap, respectively, a frame fixedly installed inside the main body casing of the casing, and mounted on the frame, Fixed rotational scrolls, which are eccentrically coupled to the swinging scroll, and two pairs of compression chambers engaged with the swinging scroll and continuously moving together during the swinging movement of the swinging scroll, and the annular sealing end is stepped on its outer peripheral surface And an annular sealing protrusion which is press-fitted into the sealing end of the fixed scroll so as to partition the inside of the casing into a suction space and a discharge space between the scroll and the main body cylinder and the upper cap of the casing. , The suction space and the discharge space of the casing can be closely partitioned, so that the compressed gas is discharged into the discharge space of the casing. It prevents the leakage to the suction space can further enhance the performance of the compressor performance.

Description

DETECTION FOR PROTECTING GAS LEAKAGE OF SCROLL COMPRESSOR}

1 is a cross-sectional view showing an example of a conventional scroll compressor,

2 is a cross-sectional view showing a leakage process of compressed gas in a conventional scroll compressor,

3 is a cross-sectional view showing an example of the scroll compressor of the present invention;

Figure 4 is a cross-sectional view showing a part of the fixed scroll and the sealing member in the scroll compressor of the present invention,

5 and 6 are cross-sectional views showing a part of the fixed scroll and the sealing member in the scroll compressor of the present invention.

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

1: Casing 1a: Body Cylinder

1b: upper cap 10: fixed scroll

11: wrap 12: inlet

13: outlet 14: high and low pressure separation unit

15: sealing protrusion S1: suction space

S2: discharge space

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas leakage blocking device of a scroll compressor, and more particularly, to a gas leakage blocking device of a scroll compressor for preventing the compressed gas of a discharge space from leaking into a suction space.

In general, a scroll compressor is a high-efficiency low noise compressor widely applied to an air conditioner. A plurality of compression chambers are formed in pairs between scrolls while the two scrolls rotate relative to each other, and the compression chamber continuously moves toward the center. The volume decreases and the refrigerant gas is continuously sucked and compressed to be discharged.

The scroll compressor can be classified into low pressure type and high pressure type according to whether the suction gas or the discharge gas is filled in the casing. As shown in FIG. 1, the low-pressure scroll compressor in which the inside of the casing is filled with suction gas includes a casing 1 having a gas suction pipe SP and a gas discharge pipe DP, and upper and lower sides of an inner circumferential surface of the casing 1. In the center of the rotor 3B of the main frame 2 and the subframe (not shown), the drive motor 3 mounted between the main frame 2 and the subframe, and the drive motor 3 respectively fixed to the main frame 2 and the subframe. A drive shaft 4 which press-fits and penetrates the main frame 2 to transmit the rotational force of the drive motor 3, and a turning scroll 5 mounted on the main frame 2 and coupled to the drive shaft 4 to make a pivoting motion; And a fixed scroll 6 for engaging the wrap 5a of the swinging scroll 5 to form a spiral wrap 6a to form a plurality of compression chambers P and fixing it to the upper surface of the main frame 2; Old dam ring (7) and the fixed scroll (6) to be coupled between the swing scroll (5) and the main frame (2) to prevent rotation of the swing scroll (5) The low pressure separating plate 8 which is coupled to the rear surface and divides the inside of the casing 1 into the suction space S1 and the discharge space S2, and the discharge space S2 by being coupled to the rear surface of the hard plate portion of the fixed scroll 6. And a check valve 9 for preventing the reverse flow of the compressed gas discharged to

The casing 1 is formed in a cylindrical shape and fixedly installs a drive motor 3, a main frame 2, and a subframe therein, and communicates a gas suction pipe SP between the two frames 2 (not shown). Main body (1a), the upper cap (1b) to cover the upper end of the main body (1a) to communicate the gas discharge pipe (DP), and the lower cap to cover the lower end of the main body (1a) ( Not shown). The main cylinder 1a and the upper cap 1b are welded to each other with the sealing protrusion 8a of the high and low pressure separating plate 8 to be described later, while the main cylinder 1a and the lower cap (not shown) are overlapped and welded. Is fixed.

The orbiting scroll 5 is formed on the upper surface of the hard plate portion with a wrap 6a of the fixed scroll 6, which will be described later, and forms a wrap 5a constituting two pairs of compression chambers P in an involute shape. In the center of the bottom surface, the above-described driving shaft 4 is coupled to form a boss 5b for receiving power from the driving motor 3.

The fixed scroll 6 engages the wrap 5a of the swinging scroll 5 on the bottom of the hard plate portion to form a wrap 6a that forms a pair of compression chambers P in an involute shape, and the hard plate A suction port 6b is formed on the side surface of the gas communication pipe SP. The discharge space S2 of the casing 1 is connected to the upper surface of the upper plate by communicating with the center of the final compression chamber P. The discharge port 6c which discharges to () is formed.

The high and low pressure separating plate 8 is formed in an annular shape, and its inner circumference is fastened by fastening with bolts B on the rear edge of the hard plate portion of the fixed scroll 6, while the outer circumference of the main cylinder 1a is described above. The sealing projection 8b is formed so that welding may be interposed between the upper cap 1b.

In the figure, reference numeral 3A denotes a stator.

The conventional scroll compressor as described above operates as follows.

That is, when the power is applied to the drive motor 3, the rotating shaft 5 is rotated with the rotor 3B of the drive motor 3, the turning scroll 5 is the main frame (7) by the old dam ring (7). In the upper surface of 2) the pivoting movement by the eccentric distance, with the swing scroll (6) continuously forms a pair of compression chamber (P) between the wrap (5a, 6a) with the fixed scroll (5), The compression chamber P moves to the center by the continuous swinging motion of the swinging scroll 6 and decreases in volume to suck and compress the refrigerant gas to the upper space of the high and low pressure separating plate 8, that is, the discharge space S2. It was to discharge.

 However, in the conventional scroll compressor as described above, as described above, the inner circumference of the high and low pressure separating plate 8 is fixed to the rear surface of the fixed scroll 6 by bolts B, but as shown in FIG. When welding the machining error or the outer circumference of the high and low pressure separation plate 8 between the main body cylinder 1a and the upper cap 1b, lifting may occur due to deformation due to the welding heat. Part of the leaked into the suction space (S1) that is the low pressure portion, there is a fear that the performance of the compressor is deteriorated.

The present invention has been made in view of the problems of the conventional scroll compressor as described above, to provide a gas leakage blocking device of the scroll compressor that can prevent the compressed gas discharged into the discharge space to leak into the suction space of the low pressure portion of the casing. There is an object of the present invention.

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Hereinafter, a gas leakage blocking device of a scroll compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 3 is a cross-sectional view showing an example of the scroll compressor of the present invention, Figure 4 is a cross-sectional view showing a part of the fixed scroll and the sealing member in the scroll compressor of the present invention, Figures 5 and 6 are fixed scroll and the sealing member in the scroll compressor of the present invention This is a cross-sectional view showing a part of the.

As shown in the drawing, in the scroll compressor according to the present invention, the main frame 2 is fixedly installed above the inner circumferential surface of the casing 1, and the swing scroll 5 and the tooth that rotate in the upper surface of the main frame 2 are rotated. In addition, two pairs of compression chambers P continuously moving are formed and the outer circumferential surface thereof is welded together between the main body cylinder 1a and the upper cap 1b to be described later to suck the inside of the casing 1 above. It includes a fixed scroll 10 having a sealing protrusion 15 to partition into a space (S1) and the discharge space (S2).

The casing 1 is formed in a cylindrical shape, and fixedly installs a drive motor 3, a main frame 2, and a subframe (not shown) therein, and a gas suction pipe SP between the two frames 2 (not shown). ) Is coupled to the main body (1a) to communicate the coupling, the upper cap (1b) for coupling the gas discharge pipe (DP) to the upper end of the main body (1a) and the lower end of the main body (1a) Has a lower cap (not shown).

The diameter of the main body cylinder 1a and the upper cap 1b is formed substantially the same, and the sealing protrusion 15 provided in the outer peripheral surface of the fixed scroll 10 is provided between the main body cylinder 1a and the upper cap 1b. It is inserted into and welded so that the gas suction pipe SP and the gas discharge pipe DP can be closely partitioned between the suction space S1 and the discharge space S2 of the casing.

The fixed scroll 10 is formed in the involute shape of the wrap 11 which is engaged with the wrap 5a of the turning scroll 5 on the bottom of the hard plate portion to form a pair of compression chambers P. The inlet 12 is formed on the side surface of the gas communication pipe (SP) to communicate with, the upper surface of the hard plate portion in communication with the center of the final compression chamber (P) in the discharge space of the casing (1) (S2) The discharge port 13 which discharges to () is formed. In addition, the outer circumferential surface of the hard plate portion is formed to protrude the high and low pressure blocking portion 14 to a predetermined height, and the outer circumferential surface of the high and low pressure blocking portion 14 is inserted between the main body cylinder 1a and the upper cap 1b to be welded. The sealing protrusion 15 is formed to engage.

The sealing protrusion 15 may be formed by integrally protruding an annular protrusion having a predetermined height and width on the outer circumferential surface of the high and low pressure blocking portion 14, as shown in FIG. After the sealing groove 14a is formed to be negatively formed to a predetermined depth on the outer circumferential surface of the portion 14, an arc-shaped sealing protrusion 15 may be inserted into the sealing groove 14a and coupled thereto, as shown in FIG. The sealing end 14b may be stepped on the outer circumferential surface of the high and low pressure separating part 14, and then the annular sealing protrusion 15 may be press-fitted to the sealing end 14b.

The sealing protrusion 15 may be formed of the same material as the fixed scroll 6, but the fixed scroll 6 is usually cold rolled steel sheet or hot rolled steel such as the casing 1 in consideration of the fact that it is made of cast iron, which is disadvantageous for welding. It is preferable to form with a material favorable for welding, such as a steel plate.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the figure, reference numeral 5b denotes a boss portion, 7 an old dam ring, and 9 a check valve.

Gas leakage blocking device of the scroll compressor of the present invention as described above has the following effects.

That is, when the driving shaft 4 is rotated by applying power to the driving motor 3, the turning scroll 5, which is eccentrically coupled to the driving shaft 4, rotates along a predetermined trajectory, and in this process the turning scroll 5 ) And a pair of compression chambers (P) formed between the fixed scroll (10) is continuously moved to the center of the rotational movement to decrease the volume to continuously suction and compress the refrigerant gas discharge space of the casing (1) ( Discharged to S2).

Here, the high and low pressure separating portion 14 protrudes from the outer circumferential surface of the fixed scroll 10, and a sealing protrusion 15 is formed on the outer circumferential surface of the high and low pressure separating portion 14 to casing the sealing protrusion 15. The suction space S1 and the discharge of the casing 1 are discharged by welding the main body cylinder 1a and the upper cap 1b together while interposed between the main body cylinder 1a and the upper cap 1b of 1). The space S2 may be closely partitioned, thereby effectively preventing the compressed gas discharged into the discharge space S2 of the casing 1 from leaking into the suction space S1, thereby improving the performance of the compressor. In addition, when the sealing protrusion 15 is formed of the same material as the material of the casing 1 can increase the bonding force with the casing (1) can more effectively block the gas leakage.

Gas leakage blocking device of the scroll compressor according to the present invention, by forming a sealing protrusion on the outer circumferential surface of the fixed scroll or separately inserted and welded between the main body of the casing and the upper cap, the suction space and the discharge space of the casing tightly It is possible to partition and thereby increase the compressor performance by preventing the compressed gas from leaking from the discharge space of the casing to the suction space.

Claims (4)

A casing which forms a main body in a cylindrical shape and seals the upper and lower ends of the main body with an upper cap and a lower cap, respectively; The frame fixedly installed in the main body of the casing, A turning scroll which is mounted on the frame and is eccentrically coupled to the electric mechanism to make turning movement; A fixed scroll formed with two pairs of compression chambers engaged with the turning scroll and continuously moving together during the turning movement of the turning scroll, the sealing grooves being negatively shaped to a predetermined depth on the outer circumferential surface thereof; Gas leakage blocking of a scroll compressor including a plurality of sealing protrusions inserted into a sealing groove of the fixed scroll and welded to the casing so as to partition the inside of the casing into a suction space and a discharge space between the casing body and the upper cap. Device. A casing which forms a main body in a cylindrical shape and seals the upper and lower ends of the main body with an upper cap and a lower cap, respectively; The frame fixedly installed in the main body of the casing, A turning scroll which is mounted on the frame and is eccentrically coupled to the electric mechanism to make turning movement; A fixed scroll formed with two pairs of compression chambers which are engaged with the turning scroll and continuously move together in the turning movement of the turning scroll, and the annular sealing end is stepped on its outer peripheral surface; Gas leakage blocking of the scroll compressor including an annular sealing protrusion which is press-fitted into the sealing end of the fixed scroll so as to partition the inside of the casing into the suction space and the discharge space between the casing body and the upper cap and welded to the casing. Device. The method according to claim 1 or 2, Sealing protrusion is a gas leakage blocking device of the scroll compressor, characterized in that formed on the outer circumferential surface of the fixed scroll and formed of a different material than the fixed scroll. The method of claim 3, The gas leakage blocking device of the scroll compressor, characterized in that the sealing protrusion is formed of the same material as the casing.

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