KR100455424B1 - Scroll compressor - Google Patents

Abstract

The present invention relates to a scroll compressor, the present invention is a rotating shaft to form a frame fixed to the inside of the casing, a fixed scroll fixed to the upper surface of the frame, and a pair of compression space that is continuously engaged with the fixed scroll And a rotational scroll coupled to the upper surface of the frame so as to be pivotable, and a rotation prevention mechanism for inducing the rotational movement while preventing the rotational movement of the rotational scroll between the frame and the rotational scroll. The stopper is provided between the frame and the revolving scroll to allow the revolving movement by sliding on the revolving scroll during the forward revolving of the revolving scroll, while providing a stopper to limit the reverse rotation by the revolving scroll. , It is necessary to install a separate check valve to block the reverse flow of discharge gas This eliminates the valve noise generated when the check valve opens and closes, greatly reducing compressor noise and increasing reliability.

Description

Scroll Compressor {SCROLL COMPRESSOR}

The present invention relates to a scroll compressor, and more particularly, to a scroll compressor equipped with a reverse rotation prevention device between the swing scroll and the main frame.

In general, a scroll compressor is a type of rotary compressor which is a volumetric compressor in which two interlocking scroll parts of involute teeth are compressed while turning. Refrigerating capacity is 2500 ~ 4300Kcal / h, scroll compressor requires precise tolerance machining of scroll parts for efficient operation, and it is widely used for air conditioning and low temperature as high precision processing is possible with recent development of manufacturing technology. . This scroll compressor has less torque variation than reciprocating or rotary type, and has no intake valve or discharge valve, and has a low sliding speed of the compression element. In addition, since there are many leakage advantages of the working gas between the compression chambers and the number of parts, etc., the advantages are high, such as high efficiency, low noise, low vibration, and high reliability.

1 is a vertical cross-sectional view of a conventional scroll compressor, as shown in the conventional scroll compressor is a casing 10 to form a closed space therein, and a compression unit 20 mounted in the casing to compress the refrigerant And a power generation unit 50 for providing a driving force to the compression unit 20 and a lubrication unit 60 for lubricating the inside of the casing 10.

One side of the casing 10 is formed with a suction pipe 11 for sucking refrigerant from the outside and a discharge pipe 12 for discharging the compressed refrigerant.

The compression unit 20 has a fixed scroll (22) of the involute shape, the discharge port 23 is formed so that the refrigerant compressed in the center portion can be discharged fixed fixed to the inside of the casing (10) 21) and the same involute swinging scroll wrap 26 formed corresponding to the fixed scroll 22, and the fixed scroll 22 and the swinging scroll scrap 26 are engaged with each other by 180 degrees out of phase. The crescent moon-shaped space is configured to be provided with a rotating scroll (25) mounted to form four compression space (P2) at the same time.

In addition, a high low pressure separating plate 24 is formed above the fixed scroll 21 to divide the inner space of the casing 10 into a high pressure side P3 and a low pressure side P1. On the upper side, a check valve mounted to slide and guide the inside of the valve housing 42 and the valve housing 42 so as to prevent the compressed refrigerant of the high pressure side P3 from flowing back to the inside of the compression space P2. A check valve assembly 40 consisting of a valve 41 is mounted.

The power generating unit 50 includes a stator 51 fixed inside the casing 10, a rotor 52 for converting an electric force into a rotating force inside the stator 51, and the rotor 52. Rotation shaft 53 for transmitting the rotational force of the rotating scroll (25), and all the ring 56 mounted between the rotating shaft (53) and the rotating scroll (25) to convert the rotational movement of the rotary shaft (53) to the pivoting movement And a main frame 54 and a low frame 55 fixedly mounted inside the casing 10 to which the rotation shaft 53 is fixed.

The lubrication part 60 is mounted in the rotating shaft 53 so that the oil 61 filled in the lower part of the casing 10 is supplied to the friction part inside the casing 10.

In the conventional scroll compressor configured as described above, a compression space P2 is formed by the fixed scroll 22 and the rotating scroll 25 on which the fixed scroll 22 and the swing scroll 26 are formed. The fixed scroll 21 is fixed, and the rotating scroll 25 is driven to rotate along a circle having a predetermined radius in a fixed state such that the rotating scroll 25 is not rotated to continuously compress the refrigerant.

As the compression proceeds, the check valve 41 of the check valve assembly 40 flows upward due to the pressure difference to open the discharge port 23, and the compressed refrigerant is discharged to the high pressure side P3 through the discharge port 23. Flowing, the compressed refrigerant on the high pressure side (P3) is separated from the low pressure side (P1) by the high and low pressure separating plate 24, and is discharged to the outside of the casing 10 through the discharge tube (12).

However, in the conventional scroll compressor as described above, when the ratio between the suction pressure and the discharge pressure increases, the check valve 41 of the check valve assembly 40, which serves to prevent reverse rotation of the scroll compressor, is fixed scroll ( Chattering noise is generated by hitting the upper part of the discharge port 23 of 21) severely.

In addition, when the scroll compressor stops after the operation, the high temperature and high pressure refrigerant compressed and discharged by the fixed scroll 21 and the turning scroll 25 is instantaneously flowed back to the turning scroll 25 and the rotating shaft 53. ) Reverse rotation occurs, and when the reverse rotation occurs as described above, abnormal vibrations and noises are generated, thereby deteriorating the reliability of the scroll compressor.

The present invention has been made in view of the problems of the conventional scroll compressor as described above, it is an object of the present invention to provide a scroll compressor that can eliminate the valve by removing the check valve.

1 is a longitudinal sectional view showing the internal structure of a typical scroll compressor;

2 is a longitudinal sectional view showing an internal structure of a scroll compressor which is one embodiment of the present invention;

3 is a cross-sectional view partially showing the A-A portion of the scroll compressor shown in FIG.

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

140: reverse rotation prevention device 141: locking groove

142: support groove 143: spring

144: stopper pin

In order to achieve the object of the present invention, by coupling to the rotating shaft to form a frame fixed to the inside of the casing, a fixed scroll fixed to the upper surface of the frame, and a pair of compression space that is continuously engaged with the fixed scroll A frame compressor comprising: a rotating scroll disposed rotatably on an upper surface of the frame; and a rotating prevention mechanism for inducing a rotating movement while preventing the rotating movement of the rotating scroll interposed between the frame and the rotating scroll. And a stopper provided between the turning scroll and the turning scroll to allow the turning movement to slide during the forward turning of the turning scroll while limiting the reverse rotation during the turning turning. It provides a scroll compressor.

Hereinafter, the scroll compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

2 is a longitudinal sectional view showing the internal structure of a scroll compressor equipped with a reverse rotation prevention device of an embodiment of the present invention, Figure 3 is a partial sectional view showing a cross-sectional view of the AA portion of the scroll compressor shown in FIG. As shown in the drawing, the scroll compressor of the present invention includes the casing 10 forming a closed space therein, a compression unit 20 mounted inside the casing 10 to compress the refrigerant, and a compression unit ( 20 is provided with a power generating unit 50 for providing a driving force, and a lubrication unit 60 for lubricating the casing 10.

One side of the casing 10 is provided with a suction pipe 11 for sucking the refrigerant from the outside and a discharge tube 12 for discharging the compressed refrigerant.

The compression unit 20 has a main frame 54 and a low frame 55 fixed to the inside of the casing 10 and an involut-shaped fixed scroll scrap 22 to compress the refrigerant compressed in the center thereof. The discharge port 23 is formed so that the fixed scroll 21 is fixedly mounted on the upper surface of the main frame 54 and the involute swinging scroll wrap 26 to be engaged with the fixed scroll 22 The main frame 54 of the main frame 54 is coupled to the rotating shaft 53 and the fixed scroll 22 and the swing scroll 26 to form a pair of compression space (P2) continuously engaged by 180 degrees out of phase with each other Slewing scroll (25) coupled to the upper surface pivotally, and the old dam ring 56 to induce the turning movement while blocking the rotational movement of the turning scroll (25) interposed between the main frame (54) and the turning scroll (25) ) And an inner space of the casing 10 above the fixed scroll 21. It is provided with a high and low pressure separating plate 24 which is mounted to partition the high pressure side (P3) and the low pressure side (P1).

In addition, a stopper 140 is provided between the turning scroll 25 and the main frame 54 to allow this during the forward turning of the turning scroll 25 and to limit it during the reverse turning. It is formed in the shape of an angular long rod in the axial direction, the lower end of which is inserted into the support groove 142 provided on the main frame 54, while the upper end thereof is selective to the locking groove 141 of the turning scroll 25 according to the turning direction. When the stopper pin 144 and the stopper pin 144 is inserted into the slide to forward turn to support the lower end of the stopper pin 144, the stopper pin 144 is compressed to be hidden inside the support groove 142 while the reverse turn is performed. The stopper pin 144 is formed of a spring 143 that is projected out of the support groove 142 to be restored to overlap the locking groove 141. The stopper pin 144 is one side, that is, turning as shown in FIG. The scroll 25 is in contact with the locking groove 141 during the forward turning. While the surface is formed to be inclined surface 144a so as to slide while the other side, that is, the surface contacting the engaging groove 141 during the reverse rotation of the swing scroll 25 is in contact with the engaging groove 141 to make a pivoting motion In the drawings, the same reference numerals are given to the same parts as in the prior art. In the drawings, reference numeral 51 denotes a stator, 52 a rotor, and 61 an oil.

The scroll compressor of the present invention as described above has the following effects. When power is applied to the power generating unit 50 and the rotor 52 and the rotating shaft 53 rotate, the rotating shaft 53 is connected to the rotating shaft 53. Combined turning scroll (25) is rotated by the old dam ring 56 while rotating on the upper surface of the main frame (54). In this process, the refrigerant gas is sucked into the pair of compression spaces P2 gradually moving inwardly between the fixed scroll 22 and the rotating scroll 26 and compressed together with the rotational movement. 23 is discharged to the high pressure side (P3) of the casing (10).

At this time, when the turning scroll 25 is rotated in the forward direction (a direction) while the compression is performed, the inclined surface 144a of the stopper pin 144 comes into contact with the locking groove 141, thereby sliding the inclined surface 144a. As the stopper pin 144 moves downward while compressing the spring 143 to guide the forward turn, the compressed refrigerant is discharged to the high pressure side P3 through the discharge port 23.

On the other hand, as the scroll compressor stops after the operation, the refrigerant gas on the high pressure side P3 flows back into the compression space P2 due to the pressure difference, and the turning scroll 25 tries to turn in the reverse direction (b direction). At this time, the stopper pin 144 is raised by the elastic force of the spring 143 so that the vertical surface 144b of the stopper pin 144 is caught by the locking groove 141 and thus the reverse direction of the turning scroll 25. Rotation (b direction) is prevented.

In this way, even if a separate check valve is not provided on the outlet side of the fixed scroll, the reverse swing motion of the swing scroll can be restricted, thereby eliminating the valve noise generated when the check valve is mounted, thereby greatly reducing the compressor noise.

The scroll compressor according to the present invention interposes between the frame and the turning scroll to allow turning movement by sliding on the turning scroll during the forward turning of the turning scroll, while rotating the turning scroll to reverse the rotation. By providing a stopper to limit, it is not necessary to separately install a check valve for blocking the reverse flow of the discharge gas, thereby eliminating the valve noise generated when opening and closing the check valve can greatly reduce the compressor noise and increase the reliability.

Claims (3)

delete The frame is fixed to the inside of the casing, the fixed scroll fixed to the upper surface of the frame, and coupled to the rotating shaft to form a pair of compression space that is continuously engaged with the fixed scroll to be pivotable on the upper surface of the frame A scroll compressor comprising a swinging scroll to be disposed and a rotation preventing mechanism for inducing a swinging movement while intervening between the frame and the swinging scroll to prevent the swinging movement of the swinging scroll. The stopper is provided between the frame and the revolving scroll to allow the revolving movement by sliding in the revolving scroll during the forward revolving of the revolving scroll, while limiting the reverse rotation by the revolving scroll. Scroll compressor. The method of claim 2, The stopper is inserted between the support groove formed on the upper surface of the frame and the locking groove formed on the back of the swing scroll corresponding to the support groove, one side of which forms an inclined surface to slide during the forward swing of the swing scroll, while the other side is the swing scroll. A stopper pin forming a vertical surface so as to be caught by a locking groove during reverse turning of the The stopper pin rotates in the forward direction so that the stopper pin is compressed when it is in contact with the inclined surface of the stopper pin, and the stopper pin is hidden inside the support groove. And a spring for elastically supporting the stopper pin in the support groove so as to overlap between the support groove and the locking groove.