TH23749B - The grooved scroll compressors equalize the pressure. - Google Patents

Abstract

The DC60 scroll compressor is provided with a groove, equalizing the pressure in the base of the One scroll piece The equal pressure grooves make contact between the pressure chambers at medium pressure, so if one of the two chambers is at a higher pressure than the other, the pressure will be equalized. Loss of mixing, which may occur when two chambers are compressed with Differential pressure, contact with each other or at the output. Vibration And noise will be made To decrease as well A scroll compressor is provided with a groove, equalizing the pressure in the base of the One scroll piece The equal pressure grooves make contact between the pressure chambers at medium pressure, so if one of the two chambers is at a higher pressure than the other, the pressure will be equalized. Loss of mixing, which may occur when two chambers are compressed with Differential pressure, contact with each other or at the output. Vibration And noise will be made To decrease as well

Claims (9)

1.Scrolled compressors included A non-stationary scroll with a base and a spiral wrap that extends from the base. A stationary scroll with a base and a spiral wrap that extends from the base. The encapsulation of the non-stationary scroll and the circular motion scroll fits perfectly. Between each other A circular motion scroll that is driven for cyclic motion. Relative to such a non-moving scroll. In such a way that such encapsulation of the scroll Does not move in a loop and scroll in such a loop Interact with each other as A loop to form a seal that separates the pressure chamber. And the movement of the shroud encapsulation Moving in a circle that moves the chambers of pressure In the direction of entry to contact the central outlet with at least two chambers of such pressure chambers that eventually contact each other And contact with said outlet and groove make the same pressure with two opposite ends And being formatted in a sassy surface The outside of the base of at least one of the non-mobile scrolls and the motion scrolls are those outer faces facing the other of the non-mobile scrolls as Band and In a circular motion The one end of such a tip that contacts carefully with One of the two pressure chambers And the second end of the said end that contacts the other room One of the two pressure chambers At the position after the circular motion scroll has been made Reaction to the motionless scroll. To seal the leak, two chambers, such pressure. And before the two such pressure chambers were contacted with each other and the outlet channels were contacted. 2.Scroll compressor according to claim 1, where economical injection channels stretch Through the aforementioned base of such a non-moving scroll To supply additional fluid to the compression chamber Such pressure And the groove makes the same pressure contact between the two chambers. During the following time from the circular moving scroll, it passes through the compression injection channel. Such savings 3. Scroll compressor according to claim 2, in which the grooves make the said pressure equal. The pattern is formed in the base of the motionless scroll. 4.Scroll compressor according to claim 3, where the equal pressure groove is formatted. Rises in the base of the circular motion scroll as well. 5. Scroll compressor according to claim 1, in which the grooves make the said pressure equal. The pattern is formed in the base of the circular motion scroll. 6. Scroll compressor according to claim 1, in which the grooves make the said pressure equal. The pattern is formed in the base of the motionless scroll. 7. Scroll compressor according to claim 1, in which the grooves make the said pressure equal. Pattern shall be between 100 microns and 10 millimeters deep. 8. Scroll compressor that includes A non-moving scroll with a base and a typical helical encapsulation that extends from that base. A circular mobile scroll with a base and a typical helical encapsulation. Extending from the base, such a circular motion scroll is driven at relative motion to the The motionless scroll is such a loop. In such a way that the enclosures of the non-motion scroll and the circular scrolls fit between them. And both will build a recording chamber The pressure is sealed up. And moves the pressure chamber in the inlet direction to contact the channel Pay off the middle line The circular motion scroll encapsulation is then executed to perform The initial reaction to the encapsulated scrollbeb does not move in a loop. To set the sealing point at Set a number of pressure chambers With at least two chambers of the aforementioned pressure chambers. Being moved simultaneously into two chambers to discharge the pressure Finally contact with each other And each other and contact with said outlet and groove, making equal pressure formed in the outer surface of the base of the pattern scroll. Not moving in such a loop, such an outer surface is defined as facing the scroll. Moving in such a loop The groove makes the same pressure with the opposite ends with one end. Of the extremities that are selective in contact with one of the two pressure chambers And the second end Of the ends that are in contact with the other of the two chambers At the position after The motionless scroll reacts with the motionless scroll. To seal the leak, the two chambers and the first two chambers were contacted. Each other and contact the said outgoing channel. 9.Methods for operating a scroll compressor Composed of the steps of (1) the arrangement of the stationary and cyclic scrolls, both the non-stationary and circular scrolls have bases and wrappers. Cover the scroll in a spiral. Stretching from the base The circular scroll encapsulation of the non-stationary scroll. And such circular motions are fitted between them to define the pressure chamber and groove arrangement, equalizing the pressure in the outer surface of the base of at least one of the encapsulation of The non-stationary and circular scroll enclosures. The outside surface. That are set to face one another of the non-stationary and mobile scroll enclosures. (2) The relative motion of the stationary scroll with the non-mobile scroll that encapsulates such a circular scroll that reacts with that. Non-encapsulated scroll Moving in such a circle To seal the leak at least two such pressure chambers. And moving At the pressure chamber, approach the central outlet port (3), connecting the two pressure chambers to each other through the pressure groove. Equal at the point after the sealing scroll is enclosed and the such pressure chamber is assigned but before the chambers connected with each other and with the said outlet channels; and (3) ) Then the pressure chambers are connected to each other and to the said outlet.